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Datasheets list: "S"

Components: 133418, pages: 134 (3.86 seconds)

S-00403G (No company) - LCD BACK LIGHT, TAB TYPE
S008 (Carlo Gavazzi) - Accessories
S-00808G (No company) - LCD BACK LIGHT, TAB TYPE
S-0201 (Para Light) - LCD Back Light, Tab Type (8.0x64.0mm L-6S4VY2C)
S-0202 (Para Light) - LCD Back Light, Tab Type (8.0x123.2mm L-6S4VY2C)
S-0203 (Para Light) - LCD Back Light, Tab Type (21.0x78.0mm L-454VY2C)
S-0204 (Para Light) - LCD Back Light, Tab Type (21.0x152.0mm L-454VY2C)
S0301L (Teccor) - Scrs 1-70 Amps Non-sensitive Gate
S0303L (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0304F1 (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0304N1 (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0306F1 (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0306L (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0308F1 (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0308R (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0310L (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0312L (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0315L (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S031E (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0320L (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0325L (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0325R (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0335J (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0335W (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0350J (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0355W (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0365J (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0365P (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0370W (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S03A1500W1 (No company) - Hybrid Couplers
S03A1600N1 (Anaren) - RF Power Hybrid Couplers ; Size LXWXH = 0.56 X 0.35 X 0.078 ; Packaging = Surface Mount ; Frequency MHZ = 1500-1700 ; Power Handling Watts = 100
S03A1870N1 (Anaren) - RF Power Hybrid Couplers ; Size LXWXH = 0.56 X 0.35 X 0.085 ; Packaging = Surface Mount ; Frequency MHZ = 1750-1990 ; Power Handling Watts = 100
S03A1960N1 (Anaren) - RF Power Hybrid Couplers ; Size LXWXH = 0.56 X 0.35 X 0.085 ; Packaging = Surface Mount ; Frequency MHZ = 1930-1990 ; Power Handling Watts = 100
S03A2000N1 (Anaren) - RF Power Hybrid Couplers ; Size LXWXH = 0.56 X 0.35 X 0.09 ; Packaging = Surface Mount ; Frequency MHZ = 1500-2500 ; Power Handling Watts = 100
S03A2150N1 (Anaren) - RF Power Hybrid Couplers ; Size LXWXH = 0.56 X 0.35 X 0.085 ; Packaging = Surface Mount ; Frequency MHZ = 2100-2200 ; Power Handling Watts = 100
S03A2500N1 (Anaren) - RF Power Hybrid Couplers ; Size LXWXH = 0.56 X 0.35 X 0.08 ; Packaging = Surface Mount ; Frequency MHZ = 2000-3000 ; Power Handling Watts = 100
S03A2750N1 (No company) - Low Profile 3 Db Hybrid Coupler In An Easy To Use Surface Mount Package For Ism
S03A888N1 (Anaren) - RF Power Hybrid Couplers ; Size LXWXH = 0.56 X 0.35 X 0.085 ; Packaging = Surface Mount ; Frequency MHZ = 815-960 ; Power Handling Watts = 100
S03B1500N2 (Anaren) - RF Power Hybrid Couplers ; Size LXWXH = 1.0 X 0.50 X 0.16 ; Packaging = Surface Mount ; Frequency MHZ = 1400-1600 ; Power Handling Watts = 200
S03B1870N2 (Anaren) - RF Power Hybrid Couplers ; Size LXWXH = 1.0 X 0.50 X 0.16 ; Packaging = Surface Mount ; Frequency MHZ = 1750-1990 ; Power Handling Watts = 200
S03B1870N3 (Anaren) - RF Power Hybrid Couplers ; Size LXWXH = 1.0 X 0.50 X 0.16 ; Packaging = Surface Mount ; Frequency MHZ = 1750-1990 ; Power Handling Watts = 300
S03B1960N2 (Anaren) - RF Power Hybrid Couplers ; Size LXWXH = 1.0 X 0.50 X 0.16 ; Packaging = Surface Mount ; Frequency MHZ = 1930-1990 ; Power Handling Watts = 200
S03B1960N3 (Anaren) - RF Power Hybrid Couplers ; Size LXWXH = 1.0x0.50x0.16 ; Packaging = Surface Mount ; Frequency MHZ = 1930-1990 ; Power Handling Watts = 300
S03B2150N2 (Anaren) - RF Power Hybrid Couplers ; Size LXWXH = 1.0 X 0.50 X 0.16 ; Packaging = Surface Mount ; Frequency MHZ = 2000-2300 ; Power Handling Watts = 200
S03B2150N3 (Anaren) - RF Power Hybrid Couplers ; Size LXWXH = 1.0x0.50x0.16 ; Packaging = Surface Mount ; Frequency MHZ = 2000-2300 ; Power Handling Watts = 300
S03B700W1 (No company) - Hybrid Couplers
S03B888N2 (Anaren) - RF Power Hybrid Couplers ; Size LXWXH = 1.0 X 0.50 X 0.16 ; Packaging = Surface Mount ; Frequency MHZ = 815-960 ; Power Handling Watts = 200
S03B888N3 (Anaren) - RF Power Hybrid Couplers ; Size LXWXH = 1.0 X 0.50 X 0.16 ; Packaging = Surface Mount ; Frequency MHZ = 815-960 ; Power Handling Watts = 300
S03E1870N1 (No company) - Hybrid Couplers
S03E1960N1 (Anaren) - RF Power Hybrid Couplers ; Size LXWXH = 0.56 X 0.2 X 0.085 ; Packaging = Surface Mount ; Frequency MHZ = 1930-1999 ; Power Handling Watts = 100
S03E2150N1 (Anaren) - RF Power Hybrid Couplers ; Size LXWXH = 0.56 X 0.2 X 0.08 ; Packaging = Surface Mount ; Frequency MHZ = 2100-2200 ; Power Handling Watts = 100
S03E2500N1 (Anaren) - RF Power Hybrid Couplers ; Size LXWXH = 0.56 X 0.2 X 0.085 ; Packaging = Surface Mount ; Frequency MHZ = 2000-3000 ; Power Handling Watts = 100
S03E2750N1 (Anaren) - RF Power Hybrid Couplers ; Size LXWXH = 0.56 X 0.2 X 0.085 ; Packaging = Surface Mount ; Frequency MHZ = 2500-3000 ; Power Handling Watts = 100
S041P (Siemens) - Fm If Amplifier With Demodulator
S042 (Siemens) - Mixers
S042P (Siemens) - Mixers
S0500KC250 (Westcode) - 1200-2500 Gate Turn Off Thyristor - Capsule Type
S0501L (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0503L (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0504F1 (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0504N1 (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0505GE10PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S0505GE5PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S0505GE6PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S0505GE7PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S0505GE8PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S0505GE9PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S0506F1 (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0506L (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0508F1 (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0508R (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0510GE10PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S0510GE5PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S0510GE6PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S0510GE7PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S0510GE8PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S0510GE9PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S0510L (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0512L (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0515L (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S051E (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0520GE10PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S0520GE5PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S0520GE6PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S0520GE7PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S0520GE8PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S0520GE9PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S0520L (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0525L (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0525R (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0535J (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0535W (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0550J (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0555W (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0565J (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0565P (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S0570W (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S05A100 (Mospec) - Schottky Barrier Rectifiers(5a,70-100v)
S05A30 (Mospec) - Schottky Barrier Rectifiers(5a,30-60v)
S05A35 (Mospec) - Schottky Barrier Rectifiers
S05A40 (Mospec) - SCHOTTKY BARRIER RECTIFIERS(5A,30-60V)
S05A45 (Mospec) - Schottky Barrier Rectifiers
S05A50 (Mospec) - SCHOTTKY BARRIER RECTIFIERS(5A,30-60V)
S05A60 (Mospec) - SCHOTTKY BARRIER RECTIFIERS(5A,30-60V)
S05A70 (Mospec) - SCHOTTKY BARRIER RECTIFIERS(5A,70-100V)
S05A80 (Mospec) - SCHOTTKY BARRIER RECTIFIERS(5A,70-100V)
S05A90 (Mospec) - SCHOTTKY BARRIER RECTIFIERS(5A,70-100V)
S05K115 (No company) - Electrical Specifications, Cont. Disc Types
S05K130 (No company) - ELECTRICAL SPECIFICATIONS, CONT. DISC TYPES
S05K140 (No company) - ELECTRICAL SPECIFICATIONS, CONT. DISC TYPES
S05K175 (No company) - ELECTRICAL SPECIFICATIONS, CONT. DISC TYPES
S05K230 (No company) - ELECTRICAL SPECIFICATIONS, CONT. DISC TYPES
S05K250 (No company) - ELECTRICAL SPECIFICATIONS, CONT. DISC TYPES
S05K275 (No company) - ELECTRICAL SPECIFICATIONS, CONT. DISC TYPES
S05K75 (No company) - ELECTRICAL SPECIFICATIONS, CONT. DISC TYPES
S05K95 (No company) - ELECTRICAL SPECIFICATIONS, CONT. DISC TYPES
S0600KC180 (Westcode) - 600-1800 Gate Turn Off Thyristor - Capsule Type
S06C30CE (Mospec) - Schottky Barrier Rectifiers
S06C35CE (Mospec) - Schottky Barrier Rectifiers
S06C40CE (Mospec) - Schottky Barrier Rectifiers
S06C45CE (Mospec) - Schottky Barrier Rectifiers
S07B (Vishay) - Small Surface Mount Diodes
S07B...S07M (General Semiconductor) -
S07D (Vishay) - Small Surface Mount Diodes
S07G (Vishay) - Small Surface Mount Diodes
S07J (OTAX) - DIP Switch
S07J (Vishay) - Small Surface Mount Diodes
S07J (TI) - HEX BUFFERS/DRIVERS WITH OPEN-COLLECTOR HIGH-VOLTAGE OUTPUTS
S07K115 (No company) - ELECTRICAL SPECIFICATIONS, CONT. DISC TYPES
S07K130 (No company) - ELECTRICAL SPECIFICATIONS, CONT. DISC TYPES
S07K140 (No company) - ELECTRICAL SPECIFICATIONS, CONT. DISC TYPES
S07K175 (No company) - ELECTRICAL SPECIFICATIONS, CONT. DISC TYPES
S07K230 (No company) - ELECTRICAL SPECIFICATIONS, CONT. DISC TYPES
S07K250 (No company) - ELECTRICAL SPECIFICATIONS, CONT. DISC TYPES
S07K275 (No company) - ELECTRICAL SPECIFICATIONS, CONT. DISC TYPES
S07K75 (No company) - ELECTRICAL SPECIFICATIONS, CONT. DISC TYPES
S07K95 (No company) - ELECTRICAL SPECIFICATIONS, CONT. DISC TYPES
S07M (Vishay) - Small Surface Mount Diodes
S07M-GS08 (Vishay) -
S0802MH1AA2 (STMicroelectronics) - Sensitive Gate SCR
S0802XH (STMicroelectronics) - Sensitive Gate Scr
S08A100 (Mospec) - Schottky Barrier Rectifiers(8a,70-100v)
S08A30 (Mospec) - Schottky Barrier Rectifiers(8a,30-60v)
S08A35 (Mospec) - Schottky Barrier Rectifiers
S08A40 (Mospec) - SCHOTTKY BARRIER RECTIFIERS(8A,30-60V)
S08A45 (Mospec) - Schottky Barrier Rectifiers
S08A50 (Mospec) - SCHOTTKY BARRIER RECTIFIERS(8A,30-60V)
S08A60 (Mospec) - SCHOTTKY BARRIER RECTIFIERS(8A,30-60V)
S08A70 (Mospec) - SCHOTTKY BARRIER RECTIFIERS(8A,70-100V)
S08A80 (Mospec) - SCHOTTKY BARRIER RECTIFIERS(8A,70-100V)
S08A90 (Mospec) - SCHOTTKY BARRIER RECTIFIERS(8A,70-100V)
S0900KC140 (Westcode) - 600-1400 Gate Turn Off Thyristor - Capsule Type
S10 (CalCrystal) - 2.0mm High Metal Package Surface Mount Crystals
S100 (Pan Jit) - Surface Mount Schottky Barrier Rectifier
S100-1000 (Sussex) -
S100-12 (No company) - 100 Watts - 12.5 Volts 1.5-30 Mhz
S100-12-2 (No company) - 100 WATTS - 12.5 VOLTS 1.5-30 MHz
S100-12-3 (No company) - 100 WATTS - 12.5 VOLTS 1.5-30 MHz
S1001L (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S100-200 (Sussex) -
S100-28 (ASI) - Npn Silicon Rf Power Transistor
S1003L (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S1004F1 (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S1004N1 (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S1005GE10PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S1005GE5PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S1005GE6PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S1005GE7PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S1005GE8PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S1005GE9PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S100-600 (Sussex) -
S1006F1 (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S1006L (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S1008 (API Delevan) - Shielded Surface Mount Inductors
S1008-101K (API Delevan) - Shielded Surface Mount Inductors
S1008-121K (API Delevan) - Shielded Surface Mount Inductors
S1008-151K (API Delevan) - Shielded Surface Mount Inductors
S1008F1 (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S1008R (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S100-T1 (WTE) - 1.0a Surface Mount Schottky Barrier Rectifier
S100-T3 (WTE) - 1.0A SURFACE MOUNT SCHOTTKY BARRIER RECTIFIER
S1010GE10PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S1010GE5PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S1010GE6PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S1010GE7PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S1010GE8PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S1010GE9PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S1010L (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S101156924 (Carlo Gavazzi) - Timers
S1012L (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S1015L (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S101D01 (SHARP) - 16-pin Dip Type Ssr For Low Power Control
S101D02 (SHARP) - 16-Pin DIP Type SSR for Low Power Control
S101DH1 (SHARP) - 16-pin Dip Type Ssr For Low Power Control
S101DH2 (SHARP) - 16-Pin DIP Type SSR for Low Power Control
S101E (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S101N11 (SHARP) - Voltage Input Solid State Relay With Built-in Snubber Circuit
S101N12 (SHARP) - Voltage Input Solid State Relay With Built-in Snubber Circuit
S101S05V (SHARP) - Sip Type Ssr With Mounting Capability For External Heat Sink
S101S06V (SHARP) - SIP Type SSR with Mounting Capability for External Heat Sink
S101S15V (SHARP) - Sip Type Ssr With Built-in Snubber Circuit
S101S16V (SHARP) - SIP Type SSR with Built-in Snubber Circuit
S1020GE10PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S1020GE5PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S1020GE6PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S1020GE7PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S1020GE8PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S1020GE9PL (No company) - A Series OF SPECTRAL - RESPONSE SILICON PHOTOCELLS DESIGNED FOR UNIQUE PRODUCT APPLICATIONS
S1020L (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S102166924 (Carlo Gavazzi) - Timers
S1025L (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S1025R (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S1028C1 (Infineon) - High Speed Clock and Data Recovery for Fiber Optic Applications
S102C-50R-0.01% (Vishay) -
S102S01 (SHARP) - Sip Type Ssr For Medium Power Control
S102S02 (SHARP) - SIP Type SSR for Medium Power Control
S102S03 (SHARP) - Sip Type Ssr With Mounting Capability For External Heat Sink
S102S11 (SHARP) - Sip Type Ssr With Snubber Circuit and Mouning Capability For External Heat Sink
S102S12 (SHARP) - SIP Type SSR with Snubber Circuit and Mouning Capability for External Heat Sink
S102T01 (SHARP) - Low Height Type Solid State Relays
S102T02 (SHARP) - Low Height Type Solid State Relays
S103156924 (Carlo Gavazzi) - Timers
S103166924 (Carlo Gavazzi) - Timers
S1035J (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S1035W (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S104156924 (Carlo Gavazzi) - Timers
S1050J (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S105156924 (Carlo Gavazzi) - Timers
S105166924 (Carlo Gavazzi) - Timers
S1055W (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S10-5S1.0 (Intronics) - 10A & 15A Non-isolated Low Vout Industry-standard Sipswith SMD or Through-hole Packaging.
S10-5S1.2 (Intronics) - 10A & 15A Non-isolated Low Vout Industry-standard Sipswith SMD or Through-hole Packaging.
S10-5S1.5 (Intronics) - 10A & 15A Non-isolated Low Vout Industry-standard Sipswith SMD or Through-hole Packaging.
S10-5S1.8 (Intronics) - 10A & 15A Non-isolated Low Vout Industry-standard Sipswith SMD or Through-hole Packaging.
S10-5S2.0 (Intronics) - 10A & 15A Non-isolated Low Vout Industry-standard Sipswith SMD or Through-hole Packaging.
S10-5S2.5 (Intronics) - 10A & 15A Non-isolated Low Vout Industry-standard Sipswith SMD or Through-hole Packaging.
S10-5S3.3 (Intronics) - 10A & 15A Non-isolated Low Vout Industry-standard Sipswith SMD or Through-hole Packaging.
S105T01 (SHARP) - Device Specipication For Solid State Replay
S105T02 (SHARP) - Low Height Solid State Relay
S106 (Solid State) - 1 FormA Solid State Relay
S1065J (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S1065P (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S106-H (Solid State) - Zero Cross, 400V, 800mA, Int. 300 Ohm Resistor
S106-S (Solid State) - Zero Cross, 400V, 800mA, Int. 300 Ohm Resistor
S106-TR (Solid State) - Zero Cross, 400V, 800mA, Int. 300 Ohm Resistor
S106-X (Solid State) - 1 FormA Solid State Relay
S107 (Solid State) - 1 FormA Solid State Relay
S1070W (Teccor) - SCRs 1-70 AMPS NON-SENSITIVE GATE
S107-H (Solid State) - Zero Cross, 600V, 800mA, Int. 300 Ohm Resistor
S107-S (Solid State) - Zero Cross, 600V, 800mA, Int. 300 Ohm Resistor
S107-TR (Solid State) - Zero Cross, 600V, 800mA, Int. 300 Ohm Resistor
S107-X (Solid State) - 1 FormA Solid State Relay
S108 (Carlo Gavazzi) - Accessories
S1087 (Hamamatsu) - Si Photodiode
S1087-01 (Hamamatsu) - Si photodiode
S108A (Carlo Gavazzi) - Accessories
S108T01 (SHARP) - Low Height Solid State Relay
S108T02 (SHARP) - Low Height Solid State Relay
S109256712 (Carlo Gavazzi) - Special Function (1.5 s - 30 s)
S10A (MCC) - 10.0 Amp Standard Recovery Rectifier 50 To 1000 Volts
S10A015 (STMicroelectronics) - Rf & Microwave Transistors General Purpose Linear Applications
S10A100 (Mospec) - Schottky Barrier Rectifiers(10a,70-100v)
S10A1870N1 (Anaren) - RF Power Directional Couplers ; Size LXWXH = 0.56 X 0.35 X 0.08 ; Packaging = Surface Mount ; Frequency MHZ = 1750-1990 ; Power Handling Watts = 100
S10A20FR (Sensitron) - Three Phase Full Wave Bridge Rectifier Assembly
S10A2500W1 (Anaren) - RF Power Directional Couplers ; Size LXWXH = 0.56 X 0.35 X 0.085 ; Packaging = Surface Mount ; Frequency MHZ = 2000-3000 ; Power Handling Watts = 100
S10A2CIC (KEC) - Super Fast Recovery Rectifier Diode, Package = TO-220IS
S10A30 (Mospec) - Schottky Barrier Rectifiers(10a,30-60v)
S10A305HE (Sensitron) - Three Phase Full Wave Bridge Rectifier Assembly
S10A3100 (Sensitron) - Three Phase Full Wave Bridge Rectifier Assembly
S10A310HE (Sensitron) - THREE PHASE FULL WAVE BRIDGE RECTIFIER ASSEMBLY
S10A315HE (Sensitron) - THREE PHASE FULL WAVE BRIDGE RECTIFIER ASSEMBLY
S10A320 (Sensitron) - THREE PHASE FULL WAVE BRIDGE RECTIFIER ASSEMBLY
S10A340 (Sensitron) - THREE PHASE FULL WAVE BRIDGE RECTIFIER ASSEMBLY
S10A35 (Mospec) - Schottky Barrier Rectifiers
S10A360 (Sensitron) - THREE PHASE FULL WAVE BRIDGE RECTIFIER ASSEMBLY
S10A360FR (Sensitron) - Three Phase Full Wave Bridge Rectifier Assembly
S10A380 (Sensitron) - THREE PHASE FULL WAVE BRIDGE RECTIFIER ASSEMBLY
S10A40 (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,30-60V)
S10A40FR (Sensitron) - THREE PHASE FULL WAVE BRIDGE RECTIFIER ASSEMBLY
S10A45 (Mospec) - Schottky Barrier Rectifiers
S10A50 (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,30-60V)
S10A60 (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,30-60V)
S10A60FR (Sensitron) - THREE PHASE FULL WAVE BRIDGE RECTIFIER ASSEMBLY
S10A70 (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,70-100V)
S10A80 (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,70-100V)
S10A888N1 (Anaren) - RF Power Directional Couplers ; Size LXWXH = 0.56 X 0.35 X 0.09 ; Packaging = Surface Mount ; Frequency MHZ = 815-960 ; Power Handling Watts = 100
S10A90 (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,70-100V)
S10B (MCC) - 10.0 Amp Standard Recovery Rectifier 50 to 1000 Volts
S10B1870N2 (Anaren) - RF Power Directional Couplers ; Size LXWXH = 1.00 X 0.50 X 0.12 ; Packaging = Surface Mount ; Frequency MHZ = 1750-1990 ; Power Handling Watts = 200
S10B888N2 (Anaren) - RF Power Directional Couplers ; Size LXWXH = 1.0 X 0.50 X 0.12 ; Packaging = Surface Mount ; Frequency MHZ = 815-960 ; Power Handling Watts = 200
S10B-EH (No company) - Disconnectable Crimp style connectors
S10C100 (Mospec) - Schottky Barrier Rectifiers(10a,70-100v)
S10C150C (Mospec) - Schottky Barrier Rectifiers
S10C30 (Mospec) - Schottky Barrier Rectifiers(10a,30-60v)
S10C30A (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,30-60V)
S10C30C (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,30-60V)
S10C30CE (Mospec) - Schottky Barrier Rectifiers
S10C30D (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,30-60V)
S10C35 (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,30-60V)
S10C35A (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,30-60V)
S10C35C (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,30-60V)
S10C35CE (Mospec) - Schottky Barrier Rectifiers
S10C35D (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,30-60V)
S10C40 (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,30-60V)
S10C40A (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,30-60V)
S10C40C (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,30-60V)
S10C40CE (Mospec) - Schottky Barrier Rectifiers
S10C40D (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,30-60V)
S10C45 (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,30-60V)
S10C45A (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,30-60V)
S10C45C (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,30-60V)
S10C45CE (Mospec) - Schottky Barrier Rectifiers
S10C45D (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,30-60V)
S10C50 (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,30-60V)
S10C50A (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,30-60V)
S10C50C (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,30-60V)
S10C50CE (Mospec) - Schottky Barrier Rectifiers
S10C50D (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,30-60V)
S10C60 (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,30-60V)
S10C60A (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,30-60V)
S10C60C (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,30-60V)
S10C60CE (Mospec) - Schottky Barrier Rectifiers
S10C60D (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,30-60V)
S10C70 (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,70-100V)
S10C80 (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,70-100V)
S10C90 (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,70-100V)
S10D (MCC) - 10.0 Amp Standard Recovery Rectifier 50 to 1000 Volts
S10G (MCC) - 10.0 Amp Standard Recovery Rectifier 50 to 1000 Volts
S10J (MCC) - 10.0 Amp Standard Recovery Rectifier 50 to 1000 Volts
S10K (MCC) - 10.0 Amp Standard Recovery Rectifier 50 to 1000 Volts
S10K115 (No company) - ELECTRICAL SPECIFICATIONS, CONT. DISC TYPES
S10K130 (No company) - ELECTRICAL SPECIFICATIONS, CONT. DISC TYPES
S10K140 (No company) - ELECTRICAL SPECIFICATIONS, CONT. DISC TYPES
S10K175 (No company) - ELECTRICAL SPECIFICATIONS, CONT. DISC TYPES
S10K230 (No company) - ELECTRICAL SPECIFICATIONS, CONT. DISC TYPES
S10K250 (No company) - ELECTRICAL SPECIFICATIONS, CONT. DISC TYPES
S10K275 (No company) - ELECTRICAL SPECIFICATIONS, CONT. DISC TYPES
S10K75 (No company) - ELECTRICAL SPECIFICATIONS, CONT. DISC TYPES
S10K95 (No company) - ELECTRICAL SPECIFICATIONS, CONT. DISC TYPES
S10M (MCC) - 10.0 Amp Standard Recovery Rectifier 50 to 1000 Volts
S10S100 (Mospec) - Schottky Barrier Rectifiers(10a,70-100v)
S10S30 (Mospec) - Schottky Barrier Rectifiers(10a,30-60v)
S10S35 (Mospec) - Schottky Barrier Rectifiers
S10S40 (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,30-60V)
S10S45 (Mospec) - Schottky Barrier Rectifiers
S10S50 (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,30-60V)
S10S60 (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,30-60V)
S10S70 (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,70-100V)
S10S80 (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,70-100V)
S10S90 (Mospec) - SCHOTTKY BARRIER RECTIFIERS(10A,70-100V)
S10SC4M (Shindengen) - Schottky Rectifiers (sbd) (40v 10a)
S10SC4MR (Shindengen) - Schottky Rectifiers (SBD)/ Center Tap, Common Cathode (Three Terminal Type)
S10VB20 (Shindengen) - Bridge Diode(200v 10a)
S10VB60 (Shindengen) - Bridge Diode(600v 10a)
S10VT60 (Shindengen) - 3 Phase Bridge Diode(600v 10a)
S10VT80 (Shindengen) - 3 Phase Bridge Diode(800v 10a)
S10VTA60 (Shindengen) - 3 Phase Bridge Diode(600v 10a)
S10VTA80 (Shindengen) - 3 Phase Bridge Diode(800v 10a)
S10WB20 (Shindengen) - Bridge Diode(200v 10a)
S10WB60 (Shindengen) - Bridge Diode(600v 10a)
S11 (M/A-COM) - 10 to 500 MHZ Thin Film SPST Switch
S110 (Solid State) - 1 FormA Solid State Relay
S1-100 (Sussex) -
S1-1000 (Sussex) -
S1-1000-150 (Sussex) -
S1-1000-50 (Sussex) -
S1-100-50 (Sussex) -
S110156024 (Carlo Gavazzi) - Timers
S110156115 (Carlo Gavazzi) - Timers
S110156230 (Carlo Gavazzi) - Timers
S110156724 (Carlo Gavazzi) - Timers
S110166024 (Carlo Gavazzi) - Timers
S110166115 (Carlo Gavazzi) - Timers
S110166230 (Carlo Gavazzi) - Timers
S110166724 (Carlo Gavazzi) - Timers
S110-H (Solid State) - Zero Cross, 400V, 800mA, Int. 300 Ohm Resistor
S110-S (Solid State) - Zero Cross, 400V, 800mA, Int. 300 Ohm Resistor
S110-T1 (WTE) - 1.0a Surface Mount Schottky Barrier Rectifier
S110-T3 (WTE) - 1.0A SURFACE MOUNT SCHOTTKY BARRIER RECTIFIER
S110-TR (Solid State) - Zero Cross, 400V, 800mA, Int. 300 Ohm Resistor
S110-X (Solid State) - 1 FormA Solid State Relay
S111 (Solid State) - 1 FormA Solid State Relay
S-1111 (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S111156024 (Carlo Gavazzi) - Timers
S111156115 (Carlo Gavazzi) - Timers
S111156230 (Carlo Gavazzi) - Timers
S111156724 (Carlo Gavazzi) - Timers
S111166024 (Carlo Gavazzi) - Timers
S111166115 (Carlo Gavazzi) - Timers
S111166230 (Carlo Gavazzi) - Timers
S111166724 (Carlo Gavazzi) - Delay on Operate (0.15 s - 800 s)
S-1111B15 (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1111B15MC-NYA-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1111B15PN-NYA-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1111B18MC-NYD-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1111B18PN-NYD-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1111B25MC-NYK-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1111B25PN-NYK-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1111B26MC-NYL-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1111B26PN-NYL-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1111B27MC-NYM-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1111B27PN-NYM-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1111B28MC-NYN-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1111B28PN-NYN-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1111B29MC-NYO-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1111B29PN-NYO-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1111B30 (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1111B30MC-NYP-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1111B30PN-NYP-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1111B31MC-NYQ-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1111B31PN-NYQ-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1111B33MC-NYS-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1111B33PN-NYS-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1111B50 (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1111B50MC-NZJ-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1111B50PN-NZJ-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1112 (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1112B15 (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1112B15MC-L6A-TF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1112B15PN-L6A-TF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1112B18MC-L6D-TF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1112B18PN-L6D-TF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1112B25MC-L6K-TF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1112B25PN-L6K-TF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1112B26MC-L6L-TF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1112B26PN-L6L-TF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1112B27MC-L6M-TF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1112B27PN-L6M-TF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1112B28MC-L6N-TF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1112B28PN-L6N-TF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1112B29MC-L6O-TF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1112B29PN-L6O-TF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1112B30 (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1112B30MC-L6P-TF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1112B30PN-L6P-TF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1112B31MC-L6Q-TF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1112B31PN-L6Q-TF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1112B33MC-L6S-TF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1112B33PN-L6S-TF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1112B50 (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1112B50MC-L7J-TF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1112B50PN-L7J-TF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S1117 (No company) - 1.0a Adjustable Ldo Linear Regulator
S1117-15 (AUK) - Adjustable and Fixed Ldo Voltage Regulator
S1117-15D (AUK) - Adjustable and Fixed Voltage Regulator
S1117-15PI (AUK) - Adjustable and Fixed LDO Voltage Regulator
S1117-15PIC (AUK) - Adjustable and Fixed Ldo Voltage Regulator
S1117-15PIC (AUK) - Adjustable and Fixed Voltage Regulator
S1117-15Q (AUK) - Adjustable and Fixed Ldo Voltage Regulator
S1117-15Q (AUK) - Adjustable and Fixed Voltage Regulator
S1117-18 (AUK) - Adjustable and Fixed LDO Voltage Regulator
S1117-18D (AUK) - Adjustable and Fixed Voltage Regulator
S1117-18PI (AUK) - Adjustable and Fixed LDO Voltage Regulator
S1117-18PIC (AUK) - Adjustable and Fixed LDO Voltage Regulator
S1117-18PIC (AUK) - Adjustable and Fixed Voltage Regulator
S1117-18Q (AUK) - Adjustable and Fixed LDO Voltage Regulator
S1117-18Q (AUK) - Adjustable and Fixed Voltage Regulator
S1117-25 (AUK) - Adjustable and Fixed LDO Voltage Regulator
S1117-25D (AUK) - Adjustable and Fixed Voltage Regulator
S1117-25PI (AUK) - Adjustable and Fixed LDO Voltage Regulator
S1117-25PIC (AUK) - Adjustable and Fixed LDO Voltage Regulator
S1117-25PIC (AUK) - Adjustable and Fixed Voltage Regulator
S1117-25Q (AUK) - Adjustable and Fixed LDO Voltage Regulator
S1117-25Q (AUK) - Adjustable and Fixed Voltage Regulator
S1117-285 (AUK) - Adjustable and Fixed LDO Voltage Regulator
S1117-285D (AUK) - Adjustable and Fixed Voltage Regulator
S1117-285PI (AUK) - Adjustable and Fixed LDO Voltage Regulator
S1117-285PIC (AUK) - Adjustable and Fixed LDO Voltage Regulator
S1117-285PIC (AUK) - Adjustable and Fixed Voltage Regulator
S1117-285Q (AUK) - Adjustable and Fixed LDO Voltage Regulator
S1117-285Q (AUK) - Adjustable and Fixed Voltage Regulator
S1117-28D (AUK) - Requlator, LDO
S1117-33 (AUK) - Adjustable and Fixed LDO Voltage Regulator
S1117-33D (AUK) - Adjustable and Fixed Voltage Regulator
S1117-33PI (AUK) - Adjustable and Fixed LDO Voltage Regulator
S1117-33PIC (AUK) - Adjustable and Fixed LDO Voltage Regulator
S1117-33PIC (AUK) - Adjustable and Fixed Voltage Regulator
S1117-33Q (AUK) - Adjustable and Fixed LDO Voltage Regulator
S1117-33Q (AUK) - Adjustable and Fixed Voltage Regulator
S1117-50 (AUK) - Adjustable and Fixed LDO Voltage Regulator
S1117-50D (AUK) - Adjustable and Fixed Voltage Regulator
S1117-50PI (AUK) - Adjustable and Fixed LDO Voltage Regulator
S1117-50PIC (AUK) - Adjustable and Fixed LDO Voltage Regulator
S1117-50PIC (AUK) - Adjustable and Fixed Voltage Regulator
S1117-50Q (AUK) - Adjustable and Fixed LDO Voltage Regulator
S1117-50Q (AUK) - Adjustable and Fixed Voltage Regulator
S1117A (AUK) - Adjustable and Fixed LDO Voltage Regulator
S1117AD (AUK) - Adjustable and Fixed Voltage Regulator
S1117-AJQ (AUK) - Adjustable and Fixed LDO Voltage Regulator
S1117API (AUK) - Adjustable and Fixed LDO Voltage Regulator
S1117APIC (AUK) - Adjustable and Fixed LDO Voltage Regulator
S1117APIC (AUK) - Adjustable and Fixed Voltage Regulator
S1117AQ (AUK) - Adjustable and Fixed LDO Voltage Regulator
S1117AQ (AUK) - Adjustable and Fixed Voltage Regulator
S1117-XXD (AUK) - Adjustable and Fixed Voltage Regulator
S1117-XXPI (AUK) - Adjustable and Fixed LDO Voltage Regulator
S1117xxPIC (AUK) - Adjustable and Fixed LDO Voltage Regulator
S1117-XXPIC (AUK) - Adjustable and Fixed Voltage Regulator
S1117-XXQ (AUK) - Adjustable and Fixed Voltage Regulator
S111-H (Solid State) - Zero Cross, 600V, 800mA, Int. 300 Ohm Resistor
S111-S (Solid State) - Zero Cross, 600V, 800mA, Int. 300 Ohm Resistor
S111-TR (Solid State) - Zero Cross, 600V, 800mA, Int. 300 Ohm Resistor
S111-X (Solid State) - 1 FormA Solid State Relay
S-1121 (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S112156024 (Carlo Gavazzi) - Interval (0.15 s - 800 s)
S112156115 (Carlo Gavazzi) - Interval (0.15 s - 800 s)
S112156230 (Carlo Gavazzi) - Interval (0.15 s - 800 s)
S112156724 (Carlo Gavazzi) - Interval (0.15 s - 800 s)
S112166024 (Carlo Gavazzi) - Interval (0.15 s - 800 s)
S112166115 (Carlo Gavazzi) - Interval (0.15 s - 800 s)
S112166230 (Carlo Gavazzi) - Interval (0.15 s - 800 s)
S112166724 (Carlo Gavazzi) - Interval (0.15 s - 800 s)
S-1121B15MC-N2A-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1121B15PN-N2A-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1121B18MC-N2D-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1121B18PN-N2D-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1121B25MC-N2K-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1121B25PN-N2K-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1121B26MC-N2L-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1121B26PN-N2L-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1121B27MC-N2M-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1121B27PN-N2M-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1121B28MC-N2N-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1121B28PN-N2N-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1121B29MC-N2O-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1121B29PN-N2O-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1121B30MC-N2P-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1121B30PN-N2P-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1121B31MC-N2Q-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1121B31PN-N2Q-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1121B33MC-N2S-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1121B33PN-N2S-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1121B50MC-N3J-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1121B50PN-N3J-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 200mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) 5-pin SON(A) (150mW) ; Note = Tantalum 2.2 µF
S-1122 (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1122B15MC-L8ATF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1122B15PN-L8ATF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1122B18MC-L8DTF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1122B18PN-L8DTF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1122B25MC-L8KTF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1122B25PN-L8KTF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1122B26MC-L8LTF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1122B26PN-L8LTF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1122B27MC-L8MTF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1122B27PN-L8MTF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1122B28MC-L8NTF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1122B28PN-L8NTF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1122B29MC-L8OTF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1122B29PN-L8OTF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1122B30MC-L8PTF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1122B30PN-L8PTF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1122B31MC-L8QTF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1122B31PN-L8QTF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1122B33MC-L8STF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1122B33PN-L8STF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1122B50MC-L9JTF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S-1122B50PN-L9JTF (Seiko) - Features = RR 80dB LDO ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 50 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 190mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW), 5-Pin SON(A) (150mW) ; Note = Ceramic 0.47 µF
S112S01 (SHARP) - Sip Type Ssr For Medium Power Control
S112S02 (SHARP) - Sip Solid State Relay For Medium Power Control
S-1131 (Seiko) - Features = RR 70dB LDO 300 ma Output ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 300 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 250mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Tantalum 2.2 µF
S-1131B15 (Seiko) - Features = RR 70dB LDO 300 ma Output ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 300 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 250mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Tantalum 2.2 µF
S-1131B15PD-N4A-TF (Seiko) - Features = RR 70dB LDO 300 ma Output ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 300 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 250mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Tantalum 2.2 µF
S-1131B15UA-N4A-TF (Seiko) - Features = RR 70dB LDO 300 ma Output ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 300 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 250mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Tantalum 2.2 µF
S-1131B15UC-N4A-TF (Seiko) - Features = RR 70dB LDO 300 ma Output ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 300 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 250mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Tantalum 2.2 µF
S-1131B18PD-N4D-TF (Seiko) - Features = RR 70dB LDO 300 ma Output ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 300 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 250mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Tantalum 2.2 µF
S-1131B18UC-N4D-TF (Seiko) - Features = RR 70dB LDO 300 ma Output ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 300 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 250mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Tantalum 2.2 µF
S-1131B25PD-N4K-TF (Seiko) - Features = RR 70dB LDO 300 ma Output ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 300 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 250mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Tantalum 2.2 µF
S-1131B25UA-N4K-TF (Seiko) - Features = RR 70dB LDO 300 ma Output ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 300 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 250mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Tantalum 2.2 µF
S-1131B25UC-N4K-TF (Seiko) - Features = RR 70dB LDO 300 ma Output ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 300 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 250mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Tantalum 2.2 µF
S-1131B27PD-N4M-TF (Seiko) - Features = RR 70dB LDO 300 ma Output ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 300 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 250mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Tantalum 2.2 µF
S-1131B27UC-N4M-TF (Seiko) - Features = RR 70dB LDO 300 ma Output ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 300 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 250mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Tantalum 2.2 µF
S-1131B30 (Seiko) - Features = RR 70dB LDO 300 ma Output ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 300 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 250mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Tantalum 2.2 µF
S-1131B30PD-N4P-TF (Seiko) - Features = RR 70dB LDO 300 ma Output ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 300 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 250mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Tantalum 2.2 µF
S-1131B30UA-N4P-TF (Seiko) - Features = RR 70dB LDO 300 ma Output ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 300 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 250mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Tantalum 2.2 µF
S-1131B30UC-N4P-TF (Seiko) - Features = RR 70dB LDO 300 ma Output ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 300 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 250mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Tantalum 2.2 µF
S-1131B33PD-N4S-TF (Seiko) - Features = RR 70dB LDO 300 ma Output ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 300 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 250mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Tantalum 2.2 µF
S-1131B33UA-N4S-TF (Seiko) - Features = RR 70dB LDO 300 ma Output ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 300 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 250mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Tantalum 2.2 µF
S-1131B33UC-N4S-TF (Seiko) - Features = RR 70dB LDO 300 ma Output ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 300 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 250mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Tantalum 2.2 µF
S-1131B50 (Seiko) - Features = RR 70dB LDO 300 ma Output ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 300 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 250mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Tantalum 2.2 µF
S-1131B50PD-N5J-TF (Seiko) - Features = RR 70dB LDO 300 ma Output ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 300 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 250mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Tantalum 2.2 µF
S-1131B50UA-N5J-TF (Seiko) - Features = RR 70dB LDO 300 ma Output ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 300 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 250mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Tantalum 2.2 µF
S-1131B50UC-N5J-TF (Seiko) - Features = RR 70dB LDO 300 ma Output ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 300 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 250mV @100mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Tantalum 2.2 µF
S1133 (Hamamatsu) - Si photodiode
S1133-01 (Hamamatsu) - Si photodiode
S1133-14 (Hamamatsu) - Si photodiode
S1136 (No company) - TRIANGULAR TYPE
S1137 (No company) - TRIANGULAR TYPE
S114156024 (Carlo Gavazzi) - Timers
S114156115 (Carlo Gavazzi) - Special Function (0.15 s - 800 s)
S114156230 (Carlo Gavazzi) - Special Function (0.15 s - 800 s)
S114156724 (Carlo Gavazzi) - Special Function (0.15 s - 800 s)
S114166024 (Carlo Gavazzi) - Special Function (0.15 s - 800 s)
S114166115 (Carlo Gavazzi) - Special Function (0.15 s - 800 s)
S114166230 (Carlo Gavazzi) - Special Function (0.15 s - 800 s)
S114166724 (Carlo Gavazzi) - Special Function (0.15 s - 800 s)
S114166812 (Carlo Gavazzi) - Special Function (0.15 s - 800 s)
S114166850 (Carlo Gavazzi) - Special Function (0.15 s - 800 s)
S1151256024 (Carlo Gavazzi) - Timers
S1151256115 (Carlo Gavazzi) - Timers
S1151256230 (Carlo Gavazzi) - Timers
S1151256724 (Carlo Gavazzi) - Timers
S115186024 (Carlo Gavazzi) - Timers
S115186048 (Carlo Gavazzi) - Timers
S115186115 (Carlo Gavazzi) - Timers
S115186230 (Carlo Gavazzi) - Timers
S115186400 (Carlo Gavazzi) - Timers
S115186724 (Carlo Gavazzi) - Timers
S-1165 (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 200 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 140mV @200mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) ; Note = Tantalum 2.2 µF
S-1165B15 (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 200 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 140mV @200mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) ; Note = Tantalum 2.2 µF
S-1165B15MC-N6A-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 200 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 140mV @200mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) ; Note = Tantalum 2.2 µF
S-1165B18MC-N6D-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 200 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 140mV @200mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) ; Note = Tantalum 2.2 µF
S-1165B25MC-N6K-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 200 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 140mV @200mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) ; Note = Tantalum 2.2 µF
S-1165B27MC-N6M-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 200 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 140mV @200mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) ; Note = Tantalum 2.2 µF
S-1165B29MC-N6O-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 200 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 140mV @200mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) ; Note = Tantalum 2.2 µF
S-1165B30 (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 200 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 140mV @200mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) ; Note = Tantalum 2.2 µF
S-1165B30MC-N6P-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 200 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 140mV @200mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) ; Note = Tantalum 2.2 µF
S-1165B33MC-N6S-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 200 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 140mV @200mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) ; Note = Tantalum 2.2 µF
S-1165B50 (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 200 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 140mV @200mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) ; Note = Tantalum 2.2 µF
S-1165B50MC-N7J-TF (Seiko) - Features = RR 70dB LDO ; Input Voltage = 6.5V Max. ; Output Voltage = 1.5-5.5V ; Output Current = 200 ma ; Accuracy = ±1% ; Current Consumption Typ. = 35 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 140mV @200mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-23-5 (300mW) ; Note = Tantalum 2.2 µF
S116S01 (SHARP) - SIP Type SSR for Medium Power Control
S116S02 (SHARP) - It(rms)16a, Zero Cross Type Sip 4pin Triac Output Ssr
S116S02F (SHARP) - IT(rms)16A, Zero Cross type SIP 4pin Triac output SSR
S-1170 (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B15 (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B15PD-OTA-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B15UC-OTA-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B16PD-OTB-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B16UC-OTB-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B17PD-OTC-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B17UC-OTC-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B18PD-OTD-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B18UC-OTD-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B19PD-OTE-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B19UC-OTE-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B20PD-OTF-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B20UC-OTF-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B21PD-OTG-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B21UC-OTG-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B22PD-OTH-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B22UC-OTH-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B23PD-OTI-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B23UC-OTI-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B24PD-OTJ-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B24UC-OTJ-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B25PD-OTK-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B25UC-OTK-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B26PD-OTL-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B26UC-OTL-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B27PD-OTM-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B27UC-OTM-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B28PD-OTN-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B28UC-OTN-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B29PD-OTO-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B29UC-OTO-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B30 (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B30PD-OTP-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B30UC-OTP-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B31PD-OTQ-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B31UC-OTQ-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B32PD-OTR-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B32UC-OTR-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B33PD-OTS-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B33UC-OTS-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B34PD-OTT-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B34UC-OTT-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B35PD-OTU-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B35UC-OTU-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B36PD-OTV-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B36UC-OTV-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B37PD-OTW-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B37UC-OTW-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B38PD-OTX-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B38UC-OTX-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B39PD-OTY-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B39UC-OTY-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B40PD-OTZ-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B40UC-OTZ-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B41PD-OUA-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B41UC-OUA-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B42PD-OUB-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B42UC-OUB-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B43PD-OUC-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B43UC-OUC-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B44PD-OUD-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B44UC-OUD-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B45PD-OUE-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B45UC-OUE-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B46PD-OUF-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B46UC-OUF-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B47PD-OUG-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B47UC-OUG-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B48PD-OUH-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B48UC-OUH-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B49PD-OUI-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B49UC-OUI-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B50 (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B50PD-OUJ-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B50UC-OUJ-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B51PD-OUK-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B51UC-OUK-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B52PD-OUL-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B52UC-OUL-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B53PD-OUM-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B53UC-OUM-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B54PD-OUN-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B54UC-OUN-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B55PD-OUO-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S-1170B55UC-OUO-TF (Seiko) - Features = RR 70dB 800mA Output ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 800 ma ; Accuracy = ±1% ; Current Consumption Typ. = 80 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 120mV @300mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SOT-89-5 (500mW) 6-pin HSON(A) (500mW) ; Note = Ceramic 4.7 µF
S11B-EH (No company) - Disconnectable Crimp style connectors
S11MA01 (SHARP) - 6-pin Dip Type Ssr For Low Power Control
S11MD4T (SHARP) - Phototriac Coupler With Built-in Zero-cross Circuit
S11MD4V (SHARP) - Phototriac Coupler with Built-in Zero-cross Circuit
S11MD4VY (SHARP) - Phototriac Coupler With Built-in Zero-cross Circuit
S11MD5T (SHARP) - High Noise-resistance Type Phototriac Coupler
S11MD5TS (SHARP) - High Noise-resistance Type Phototriac Coupler
S11MD5V (SHARP) - Mini-flat Type Phototriac Coupler
S11MD7T (SHARP) - Low Input Driving Type Phototriac Coupler
S11MD7TS (SHARP) - Low Input Drive Current Phototriac Coupler
S11MD8T (SHARP) - Low Input Driving Type Phototriac Coupler
S11MD9T (SHARP) - Low Input Driving Type Phototriac Coupler
S11ME5 (SHARP) - Phototriac Coupler Conformable To European Safety Standard
S11ME6 (SHARP) - Phototriac Coupler Conformable to European Safety Standard
S11MS3 (SHARP) - High Density Surface Mount Type Mini-flat Package Phototriac Coupler
S11MS7 (SHARP) - High Speed/ High Noise-resistance Type Phototriac Coupler
S12 (CalCrystal) - Ceramic Package Surface Mount Crystals
S1200 (No company) - Position Sensitive Detector
S1-200 (Sussex) -
S1-200-150 (Sussex) -
S1-200-50 (Sussex) -
S1201 (AMCC) - STS-12c/STS-3c Pos/atm Sonet Mapper
S1201156024 (Carlo Gavazzi) - Timers
S1201156115 (Carlo Gavazzi) - Timers
S1201156230 (Carlo Gavazzi) - Timers
S1201156724 (Carlo Gavazzi) - Timers
S1201166024 (Carlo Gavazzi) - Timers
S1201166115 (Carlo Gavazzi) - Timers
S1201166230 (Carlo Gavazzi) - Timers
S1201166724 (Carlo Gavazzi) - Timers
S1201CONGO (AMCC) - STS-12c/STS-3c Pos/atm Sonet Mapper
S1204CBIORINOCO (AMCC) - STS-12/STM-4 DS3/E3/STS-1E Sonet/sdh Mapper
S1206MH (STMicroelectronics) - The S12xxxh Series Of Scrs UsesA High Performance Mesa
S1206xH (STMicroelectronics) - The S12xxxH Series of SCRs usesA high performance MESA
S1210 (API Delevan) - Shielded Surface Mount Inductors
S1210-101K (API Delevan) - Shielded Surface Mount Inductors
S1210-121K (API Delevan) - Shielded Surface Mount Inductors
S1210-151K (API Delevan) - Shielded Surface Mount Inductors
S1210BH (No company) - Silicon Controlled Rectifiers(12a)
S1210BM (No company) - Silicon Controlled Rectifiers(12a)
S1210BS (No company) - Silicon Controlled Rectifiers(12a)
S1210DH (No company) - Silicon controlled rectifiers(12A)
S1210DM (No company) - Silicon controlled rectifiers(12A)
S1210DS (No company) - Silicon controlled rectifiers(12A)
S1210MH (No company) - Silicon controlled rectifiers(12A)
S1210MH (STMicroelectronics) - The S12xxxH Series of SCRs usesA high performance MESA
S1210MM (No company) - Silicon controlled rectifiers(12A)
S1210MS (No company) - Silicon controlled rectifiers(12A)
S1210NH (No company) - Silicon controlled rectifiers(12A)
S1210xH (STMicroelectronics) - The S12xxxH Series of SCRs usesA high performance MESA
S1215 (AMCC) - Deep channelization SONET/SDH to PDH framer and 1K Channels HDLC/ATM/GFP processor
S1217MH (STMicroelectronics) - The S12xxxH Series of SCRs usesA high performance MESA
S1217MH1AA2 (Diotec) - Surface Mount si Bridge Rectifier
S1217xH (STMicroelectronics) - The S12xxxH Series of SCRs usesA high performance MESA
S1221156024 (Carlo Gavazzi) - Timers
S1221156115 (Carlo Gavazzi) - Timers
S1221156230 (Carlo Gavazzi) - Timers
S1221156724 (Carlo Gavazzi) - Timers
S1221166024 (Carlo Gavazzi) - Timers
S1221166115 (Carlo Gavazzi) - Timers
S1221166230 (Carlo Gavazzi) - Timers
S1221166724 (Carlo Gavazzi) - Timers
S1221166812 (Carlo Gavazzi) - Multi-function (0.15 s - 220 h)
S1221166850 (Carlo Gavazzi) - Multi-function (0.15 s - 220 h)
S1223 (Hamamatsu) - For Visible Ir Precision Photometry
S1223-01 (Hamamatsu) - For visible IR precision photometry
S1226 (Hamamatsu) - Si Photo Diode
S1226-18BK (Hamamatsu) - SI PHOTO DIODE
S1226-18BQ (Hamamatsu) - SI PHOTO DIODE
S1226-18BU (Hamamatsu) -
S1226-44BK (Hamamatsu) - SI PHOTO DIODE
S1226-44BQ (Hamamatsu) - SI PHOTO DIODE
S1226-5BK (Hamamatsu) - SI PHOTO DIODE
S1226-5BQ (Hamamatsu) - SI PHOTO DIODE
S1226-8BK (Hamamatsu) - SI PHOTO DIODE
S1226-8BQ (Hamamatsu) - SI PHOTO DIODE
S1226 (Hamamatsu) -
S1227-1010BQ (Hamamatsu) -
S1227-1010BR (Hamamatsu) -
S1227-16BQ (Hamamatsu) -
S1227-16BR (Hamamatsu) -
S1227-33BQ (Hamamatsu) -
S1227-33BR (Hamamatsu) -
S1227-66BQ (Hamamatsu) -
S1227-66BR (Hamamatsu) -
S1230AB-70 (Dallas) - 256k Nonvolatile SRAM
S1230ABP-70-IND (Dallas) - 256k Nonvolatile SRAM
S1231156024 (Carlo Gavazzi) - Timers
S1231156115 (Carlo Gavazzi) - Timers
S1231156230 (Carlo Gavazzi) - Timers
S1231156724 (Carlo Gavazzi) - Timers
S1231166024 (Carlo Gavazzi) - Timers
S1231166115 (Carlo Gavazzi) - Timers
S1231166230 (Carlo Gavazzi) - Timers
S1231166724 (Carlo Gavazzi) - Timers
S1236 (No company) - TRIANGULAR TYPE
S1237 (No company) - TRIANGULAR TYPE
S125 (Diotec) - Surface Mount Si-bridge Rectifiers
S125 (Semikron) - Surface Mount Si-bridge Rectifiers
S125 (RFE) -
S125S (Daesan) - Current 0.8 Amperes Voltage 100 To 1000 Volts
S12ATD10B8CV2 (Motorola) - MC9S12DT128 Device User Guide V02.09
S12ATD10B8CV2 (Motorola) - Mc9s12dt128b
S12ATD10B8CV2D (Motorola) - MC9S12DT128 Device User Guide V02.09
S12ATD10B8CV2D (Motorola) - MC9S12DT128B
S12BDLCV1 (Motorola) - MC9S12DT128 Device User Guide V02.09
S12BDLCV1 (Motorola) - MC9S12DT128B
S12BDLCV1D (Motorola) - MC9S12DT128 Device User Guide V02.09
S12BDLCV1D (Motorola) - MC9S12DT128B
S12BDMV4 (Motorola) - MC9S12DT128 Device User Guide V02.09
S12BDMV4D (Motorola) - MC9S12DT128 Device User Guide V02.09
S12B-EH (No company) - Disconnectable Crimp style connectors
S12BFV1 (Motorola) - MC9S12DT128 Device User Guide V02.09
S12BFV1 (Motorola) - MC9S12DT128B
S12BFV1D (Motorola) - MC9S12DT128 Device User Guide V02.09
S12BFV1D (Motorola) - MC9S12DT128B
S12BKPV1 (Motorola) - MC9S12DT128 Device User Guide V02.09
S12BKPV1D (Motorola) - MC9S12DT128 Device User Guide V02.09
S12CPUV2 (Motorola) - MC9S12DT128 Device User Guide V02.09
S12CPUV2D (Motorola) - MC9S12DT128 Device User Guide V02.09
S12CRGV3 (Motorola) - MC9S12DT128B
S12CRGV3D (Motorola) - MC9S12DT128B
S12CRGV4 (Motorola) - MC9S12DT128 Device User Guide V02.09
S12CRGV4D (Motorola) - MC9S12DT128 Device User Guide V02.09
S12DTB128PIMV2 (Motorola) - MC9S12DT128 Device User Guide V02.09
S12DTB128PIMV2D (Motorola) - MC9S12DT128 Device User Guide V02.09
S12ECT16B8CV1 (Motorola) - MC9S12DT128 Device User Guide V02.09
S12ECT16B8CV1 (Motorola) - MC9S12DT128B
S12ECT16B8CV1D (Motorola) - MC9S12DT128 Device User Guide V02.09
S12ECT16B8CV1D (Motorola) - MC9S12DT128B
S12EETS2KV1 (Motorola) - MC9S12DT128 Device User Guide V02.09
S12EETS2KV1 (Motorola) - MC9S12DT128B
S12EETS2KV1D (Motorola) - MC9S12DT128 Device User Guide V02.09
S12EETS2KV1D (Motorola) - MC9S12DT128B
S12FTS128KV1 (Freescale) - 128k Byte Flash (non-volatile) Memory
S12FTS128KV1 (Motorola) - MC9S12DT128B
S12FTS128KV1D (Motorola) - MC9S12DT128B
S12FTS128KV2 (Motorola) - MC9S12DT128 Device User Guide V02.09
S12FTS128KV2D (Motorola) - MC9S12DT128 Device User Guide V02.09
S12FTS128KVD (Freescale) - 128k byte Flash (Non-Volatile) Memory
S12IICV2 (Motorola) - MC9S12DT128 Device User Guide V02.09
S12IICV2 (Motorola) - MC9S12DT128B
S12IICV2D (Motorola) - MC9S12DT128 Device User Guide V02.09
S12IICV2D (Motorola) - MC9S12DT128B
S12INTV1 (Motorola) - MC9S12DT128 Device User Guide V02.09
S12INTV1D (Motorola) - MC9S12DT128 Device User Guide V02.09
S12MD1 (SHARP) - Photothyristor Coupler
S12MD1V (SHARP) - Photothyristor Coupler
S12MD2 (SHARP) - High Noise-reductlon,high Denslty Mounting Type Photothyrister Coupler
S12MD22 (SHARP) - HIGH NOISE-REDUCTLON,HIGH DENSLTY MOUNTING TYPE PHOTOTHYRISTER COUPLER
S12MD3 (SHARP) - Photothyristor Coupler
S12ME1 (SHARP) - European Safety Standard Approved, Long Creepage Distance Type Photothyristor Coupler
S12ME1F (SHARP) - European Safety Standard Approved, Long Creepage Distance Type Photothyristor Coupler
S12MEBIV3 (Motorola) - MC9S12DT128 Device User Guide V02.09
S12MEBIV3D (Motorola) - MC9S12DT128 Device User Guide V02.09
S12MMCV4 (Motorola) - MC9S12DT128 Device User Guide V02.09
S12MMCV4D (Motorola) - MC9S12DT128 Device User Guide V02.09
S12MSCANV2 (Motorola) - MC9S12DT128 Device User Guide V02.09
S12MSCANV2 (Motorola) - MC9S12DT128B
S12MSCANV2D (Motorola) - MC9S12DT128 Device User Guide V02.09
S12MSCANV2D (Motorola) - MC9S12DT128B
S12OSCV2 (Motorola) - MC9S12DT128 Device User Guide V02.09
S12OSCV2D (Motorola) - MC9S12DT128 Device User Guide V02.09
S12PIMDT128V1 (Motorola) - MC9S12DT128B
S12PIMDT128V1D (Motorola) - MC9S12DT128B
S12PWM8B8CV1 (Motorola) - MC9S12DT128 Device User Guide V02.09
S12PWM8B8CV1 (Motorola) - MC9S12DT128B
S12PWM8B8CV1D (Motorola) - MC9S12DT128 Device User Guide V02.09
S12PWM8B8CV1D (Motorola) - MC9S12DT128B
S12R15 (No company) - 1 and 2 WATT DC/DC CONVERTERS
S12SCIV2 (Motorola) - MC9S12DT128 Device User Guide V02.09
S12SCIV2 (Motorola) - MC9S12DT128B
S12SCIV2D (Motorola) - MC9S12DT128 Device User Guide V02.09
S12SCIV2D (Motorola) - MC9S12DT128B
S12SPIV2 (Motorola) - MC9S12DT128 Device User Guide V02.09
S12SPIV2 (Motorola) - MC9S12DT128B
S12SPIV2D (Motorola) - MC9S12DT128 Device User Guide V02.09
S12SPIV2D (Motorola) - MC9S12DT128B
S12TIM16B4CV1 (Freescale) - Four Input Capture/output Compare Channels
S12TIM16B4CVD (Freescale) - Four input capture/output compare channels
S12VREGV1 (Motorola) - MC9S12DT128 Device User Guide V02.09
S12VREGV1 (Motorola) - MC9S12DT128B
S12VREGV1D (Motorola) - MC9S12DT128 Device User Guide V02.09
S12VREGV1D (Motorola) - MC9S12DT128B
S12XXXH (STMicroelectronics) - The S12xxxH Series of SCRs usesA high performance MESA
S13 (CalCrystal) - Metal Package Surface Mount Crystals
S1300 (No company) - POSITION SENSITIVE DETECTOR
S-1312-CE (Hirose) - 1300 Series Rectangular Connectors
S-1312-CT (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1312-H (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1312-SB (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1312W-CE (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1312W-CT (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1312W-H (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1312W-SB (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1316-CE (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1316-CT (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1316-H (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1316-SB (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1316W-CE (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1316W-CT (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1316W-H (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1316W-SB (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1320-CE (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1320-CT (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1320-H (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1320-SB (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1320W-CE (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1320W-CT (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1320W-H (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1320W-SB (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S1321166024 (Carlo Gavazzi) - Multi-function (0.01 s - 999 h)
S1321166115 (Carlo Gavazzi) - Multi-function (0.01 s - 999 h)
S1321166230 (Carlo Gavazzi) - Multi-function (0.01 s - 999 h)
S1321166724 (Carlo Gavazzi) - Multi-function (0.01 s - 999 h)
S-1323 (Seiko) - Features = RR 70dB SC-82AB ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 70 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 500mV @150mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SC-82AB (200mW) ; Note = Ceramic 1.0 µF
S-1323B15 (Seiko) - Features = RR 70dB SC-82AB ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 70 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 500mV @150mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SC-82AB (200mW) ; Note = Ceramic 1.0 µF
S-1323B15NB-N8A-TF (Seiko) - Features = RR 70dB SC-82AB ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 70 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 500mV @150mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SC-82AB (200mW) ; Note = Ceramic 1.0 µF
S-1323B18NB-N8D-TF (Seiko) - Features = RR 70dB SC-82AB ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 70 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 500mV @150mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SC-82AB (200mW) ; Note = Ceramic 1.0 µF
S-1323B25NB-N8K-TF (Seiko) - Features = RR 70dB SC-82AB ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 70 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 500mV @150mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SC-82AB (200mW) ; Note = Ceramic 1.0 µF
S-1323B26NB-N8L-TF (Seiko) - Features = RR 70dB SC-82AB ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 70 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 500mV @150mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SC-82AB (200mW) ; Note = Ceramic 1.0 µF
S-1323B27NB-N8M-TF (Seiko) - Features = RR 70dB SC-82AB ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 70 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 500mV @150mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SC-82AB (200mW) ; Note = Ceramic 1.0 µF
S-1323B28NB-N8N-TF (Seiko) - Features = RR 70dB SC-82AB ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 70 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 500mV @150mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SC-82AB (200mW) ; Note = Ceramic 1.0 µF
S-1323B29NB-N8O-TF (Seiko) - Features = RR 70dB SC-82AB ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 70 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 500mV @150mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SC-82AB (200mW) ; Note = Ceramic 1.0 µF
S-1323B30 (Seiko) - Features = RR 70dB SC-82AB ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 70 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 500mV @150mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SC-82AB (200mW) ; Note = Ceramic 1.0 µF
S-1323B30NB-N8P-TF (Seiko) - Features = RR 70dB SC-82AB ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 70 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 500mV @150mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SC-82AB (200mW) ; Note = Ceramic 1.0 µF
S-1323B31NB-N8Q-TF (Seiko) - Features = RR 70dB SC-82AB ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 70 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 500mV @150mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SC-82AB (200mW) ; Note = Ceramic 1.0 µF
S-1323B33NB-N8S-TF (Seiko) - Features = RR 70dB SC-82AB ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 70 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 500mV @150mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SC-82AB (200mW) ; Note = Ceramic 1.0 µF
S-1323B50 (Seiko) - Features = RR 70dB SC-82AB ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 70 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 500mV @150mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SC-82AB (200mW) ; Note = Ceramic 1.0 µF
S-1323B50NB-N9J-TF (Seiko) - Features = RR 70dB SC-82AB ; Input Voltage = 2.0-6.5V ; Output Voltage = 1.5-5.5V ; Output Current = 150 ma ; Accuracy = ±1% ; Current Consumption Typ. = 70 µA ; Current Consumption Standby = 0.1 µA ; Dropout Voltage = 500mV @150mA ; Condition = Vout=3.0V, Vin=4V ; Package (Power Dissipation) = SC-82AB (200mW) ; Note = Ceramic 1.0 µF
S-1324-CE (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1324-CT (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1324-H (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1324-SB (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1324W-CE (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1324W-CT (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1324W-H (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1324W-SB (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1328-CE (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1328-CT (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1328-H (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1328-SB (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1328W-CE (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1328W-CT (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1328W-H (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1328W-SB (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S1331156024 (Carlo Gavazzi) - Multi-function (0.01 s - 99 h)
S1331156115 (Carlo Gavazzi) - Multi-function (0.01 s - 99 h)
S1331156230 (Carlo Gavazzi) - Multi-function (0.01 s - 99 h)
S1331156724 (Carlo Gavazzi) - Multi-function (0.01 s - 99 h)
S1331156812 (Carlo Gavazzi) - Multi-function (0.01 s - 99 h)
S1331156850 (Carlo Gavazzi) - Multi-function (0.01 s - 99 h)
S-1334-CE (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1334-CT (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1334-H (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1334-SB (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1334W-CE (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1334W-CT (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1334W-H (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1334W-SB (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S1336-18BK (Hamamatsu) -
S1336-18BQ (Hamamatsu) -
S1336-18BU (Hamamatsu) -
S1336-44BK (Hamamatsu) -
S1336-44BQ (Hamamatsu) -
S1336-5BK (Hamamatsu) -
S1336-5BQ (Hamamatsu) -
S1336-8BK (Hamamatsu) -
S1336-8BQ (Hamamatsu) -
S1337-1010BQ (Hamamatsu) -
S1337-1010BR (Hamamatsu) -
S1337-16BQ (Hamamatsu) -
S1337-16BR (Hamamatsu) -
S1337-33BQ (Hamamatsu) -
S1337-33BR (Hamamatsu) -
S1337-66BQ (Hamamatsu) -
S1337-66BR (Hamamatsu) -
S1337 (Hamamatsu) -
S-1340AF (Seiko) - Cmos 4-bit 1-chip Microcomputer
S1341156024 (Carlo Gavazzi) - Multi-function (0.1 s - 100 h)
S1341156115 (Carlo Gavazzi) - Multi-function (0.1 s - 100 h)
S1341156230 (Carlo Gavazzi) - Multi-function (0.1 s - 100 h)
S1341156724 (Carlo Gavazzi) - Multi-function (0.1 s - 100 h)
S-1341AF (Seiko) - Cmos 4-bit 1-chip Microcomputer
S1342156024 (Carlo Gavazzi) - Multi-function (0.1 s - 100 h)
S1342156115 (Carlo Gavazzi) - Multi-function (0.1 s - 100 h)
S1342156230 (Carlo Gavazzi) - Multi-function (0.1 s - 100 h)
S1342156724 (Carlo Gavazzi) - Multi-function (0.1 s - 100 h)
S-1342AF (Seiko) - Cmos 4-bit 1-chip Microcomputer
S-1343AF (Seiko) - Cmos 4-bit 1-chip Microcomputer
S-1345-CE (Hirose) - 1300 Series RECTANGULAR CONNECTORS
S-1345-CT (Hirose) - 1300 Series RECTANGULAR CONNECTORS

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