The Datasheet Archive

Top Results (6)

Part Manufacturer Description Datasheet Download Buy Part
LTC221CN#PBF Linear Technology LTC221 - Micropower, Low Charge Injection, Quad CMOS Analog Switches with Data Latches; Package: PDIP; Pins: 16; Temperature Range: 0°C to 70°C
LTC222CN Linear Technology LTC222 - Micropower, Low Charge Injection, Quad CMOS Analog Switches with Data Latches; Package: PDIP; Pins: 16; Temperature Range: 0°C to 70°C
LTC221CS#TR Linear Technology LTC221 - Micropower, Low Charge Injection, Quad CMOS Analog Switches with Data Latches; Package: SO; Pins: 16; Temperature Range: 0°C to 70°C
LTC222CS#TR Linear Technology LTC222 - Micropower, Low Charge Injection, Quad CMOS Analog Switches with Data Latches; Package: SO; Pins: 16; Temperature Range: 0°C to 70°C
LTC221CS Linear Technology LTC221 - Micropower, Low Charge Injection, Quad CMOS Analog Switches with Data Latches; Package: SO; Pins: 16; Temperature Range: 0°C to 70°C
LTC222CS Linear Technology LTC222 - Micropower, Low Charge Injection, Quad CMOS Analog Switches with Data Latches; Package: SO; Pins: 16; Temperature Range: 0°C to 70°C

Aromat DPDT Single Coil 5v latching relay Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
5 pins relay pin diagram

Abstract: 5v relay 8 pin circuit diagram of relay 8 pin Aromat relays relay 5v 5 pin aromat 5v 6 pin relay circuit diagram of relay 6 pin Aromat relay relay 5v 6 pin 5v relay pin
Text: through a single coil (Figure 1). Current flowing from pin 8 to pin 1 causes the relay to latch in its , Figure 1. Current flow in a single coil latches the corresponding relay in its SET or RESET position , 3 R8 50 3 R7 50 R6 50 RELAY 3 AROMAT AGN210A4HZ R5 50 + 5V Figure 2. This , relay maintains its position even when the coil current is removed. Power is saved by removing coil , relay to its set or reset position, according to the direction of the coil current. Drive RESET low to


Original
PDF AGN210A4HZ 100ns 5 pins relay pin diagram 5v relay 8 pin circuit diagram of relay 8 pin Aromat relays relay 5v 5 pin aromat 5v 6 pin relay circuit diagram of relay 6 pin Aromat relay relay 5v 6 pin 5v relay pin
2003 - relay cross reference

Abstract: OMRON microswitch Relay schrack RU MYS 99 unimax microswitch v3 omron to tyco relay crossreference nte CROSS-REFERENCE 700-hn153 ZDM14
Text: (standard and single coil latching ) 800 VDC for 1 minute 3,000 VAC 3,000 VAC 2,000 VAC 100 , power relay · Class F coil insulation system for 155°C (311°F) total temperature · Coil molded in , ( latching /unlatching) Single button 3/16" diameter AgCdO ­ ­ ­ ­ ­ ­ 30 A or 1-1/2 HP at 120 , Panel mounted socket: Relay mounts on pre-drilled base · SPDT, DPDT , 3PDT: PTF21PC Constructed of , DPDT : P2R-08P Solder terminal sockets: · SPDT: P2R-05A · DPDT : P2R-08A 1 Form A, 1 Form C Single


Original
PDF 700-HA JQX-10FF 700-HG 8501C AZ2700/2800 JQX-116F-1 Z120D 700-HB/HD 8501KU relay cross reference OMRON microswitch Relay schrack RU MYS 99 unimax microswitch v3 omron to tyco relay crossreference nte CROSS-REFERENCE 700-hn153 ZDM14
2010 - Relay schrack RU

Abstract: omron relay G2R-2 8 pin 12V DC relay finder 12V DC Panasonic RELAY Cross Reference AROMAT hjq-22f 700-HN122 RELAY PCB DPDT 12V 8 pin 700-HC24 700-HN154 RELAY PCB DPDT 12V
Text: Relays · Small industrial 10A GP relay · SPDT, DPDT , 3PDT, 4PDT contacts · Options: indicator LED , circuit board relay · SPDT 12A, DPDT 8A contacts · High capacity SPDT 16A available · Dust and solder , Relays Sockets V­C RR Series - Power Relays · Rugged industrial 10A relay · SPDT, DPDT , 3PDT , D=Standard + diode (DC coils only) M=Momentary latching lever Coil Voltage D6=6VDC A24=24VAC A120 , industrial GP signaling relay · DPDT 3A, 4PDT 5A contacts · Bifurcated 4PDT 1A contacts available ·


Original
PDF AC12V AC24V AC120V AC240V DC12V DC24V DC48V DC110V AC110s 800-262-IDEC Relay schrack RU omron relay G2R-2 8 pin 12V DC relay finder 12V DC Panasonic RELAY Cross Reference AROMAT hjq-22f 700-HN122 RELAY PCB DPDT 12V 8 pin 700-HC24 700-HN154 RELAY PCB DPDT 12V
r50e2y1

Abstract: 1330P-2C MMS205 A178URE1-12DC W90S1D12-12 AZ2100-1C-24DEF W60HE1S-24DC MMS-205 T9AS1D12-24 W9AS1D22-12
Text: DPDT : 5 AMP, 250 VAC, 30 VDC SPST-NO: 10AMP, 250 VAC/30 VDC SPDT: 7 AMP, 250 VAC/30 VDC COIL , PRINTED CIRCUIT BOARD TRANSPARENT ENCLOSED RELAY 1330 & 1335 DPDT 5 AMPS c OUTLINE DIMENSIONS , 240 VAC 7.8 CLASS PRINTED CIRCUIT BOARD POWER RELAY 92 DPST-N.O. & DPDT 30 AMPS UL , ) TYP. ALL HOLES 6 8 7 2 4 DPST-N.O. 2 4 3 0 1 DPDT COIL MEASURED @ 25 , RELAY SPDT & DPDT 2AMP R.F. PERFORMANCE TABLE FREQUENCY (MHZ) INSERTION LOSS ISOLATION VSWR


Original
PDF SPACING30P-2C-120A W1335P-2C-12D 1335P-2C-12D W1335P-2C-24D 1335P-2C-24D r50e2y1 1330P-2C MMS205 A178URE1-12DC W90S1D12-12 AZ2100-1C-24DEF W60HE1S-24DC MMS-205 T9AS1D12-24 W9AS1D22-12
2004 - Aromat RSL2D-5V

Abstract: aromat relay aromat relay JS1E Aromat relays NUD3105 NUD3105LT1 NUD3105LT1G jw4d
Text: , 5.0 V Dual Coil Latching Relay Application with 3.0 V Level Translating Interface http://onsemi.com 6 NUD3105 Max Continuous Current Calculation for TX2- 5V Relay , R1 = 178 W Nominal @ RA = 25 , Interface Between DC Relay Coil and · · · · · · Sensitive Logic Circuits Optimized to Switch , Wire is 0.4%/°C AROMAT JS1E- 5V R1 = 160 W * [1+(0.004) * (-40°-25°)] = 118 W Min @ -40°C IO Max = (5.5 V Max - 0.25V) /118 W = 45 mA AROMAT JS1E- 5V + + + +4.5 TO +5.5 Vdc + +4.5


Original
PDF NUD3105 NUD3105/D Aromat RSL2D-5V aromat relay aromat relay JS1E Aromat relays NUD3105 NUD3105LT1 NUD3105LT1G jw4d
2004 - aromat 5v 8 pin relay

Abstract: No abstract text available
Text: (1) GND (2) GND (2) Figure 12. A 200 mW, 5.0 V Dual Coil Latching Relay Application with 3.0 , Driver Interface Between D.C. Relay Coil and · · · · · Sensitive Logic Circuits Optimized to Switch , Calculation for TX2- 5V Relay , R1 = 178 W Nominal @ RA = 25°C Assuming ±10% Make Tolerance, R1 = 178 W * 0.9 = , 118 W Min @ -40°C IO Max = (5.5 V Max - 0.25V) /118 W = 45 mA +4.5 TO +5.5 Vdc + AROMAT TX2- 5V - Vout (3) NUD3105LT1 AROMAT JS1E- 5V + +4.5 TO +5.5 Vdc + AROMAT JS1E- 5V - + AROMAT JS1E- 5V - AROMAT JS1E- 5V


Original
PDF NUD3105 NUD3105/D aromat 5v 8 pin relay
1997 - 5V 1A DPDT RELAY

Abstract: Takamisawa relay 5v dpdt TX2SA-5V omron g6s-2 Aromat tx2 G6S-2F-DC5 takamisawa RELAYS NA5 omron 5v dpdt relay DPDT 5V takamisawa relay 12
Text: -2-DC5 to 48 G6S-2F-DC5 to 48 G6S-2F-TR-DC5 to 48 G6S-2G-DC5 to 48 G6S-2G-TR-DC5 to 48 Aromat TX2- 5V , ® G6S Relays · True surface mount, low signal relay State-of-the-Art SMT Design Industry , 145 178 1,028 2,880 140 140 140 200 140 140 140 200 140 140 140 200 DPDT DPDT DPDT DPDT DPDT DPDT DPDT DPDT DPDT DPDT DPDT DPDT Terminal Arrangement / Internal , (.362) (.026) max. .50 (.019) 5.08 (.20) COIL DATA Pickup voltage Dropout voltage Maximum


Original
PDF -DC12 -DC24 5V 1A DPDT RELAY Takamisawa relay 5v dpdt TX2SA-5V omron g6s-2 Aromat tx2 G6S-2F-DC5 takamisawa RELAYS NA5 omron 5v dpdt relay DPDT 5V takamisawa relay 12
2003 - NUD310

Abstract: NUD3105LT1
Text: ) Vin (2) Vin (5) GND (1) GND (4) Figure 12. A 200 mW, 5.0 V Dual Coil Latching Relay , Driver Interface Between D.C. Relay Coil and · · · · · Sensitive Logic Circuits Optimized to Switch , Calculation for TX2- 5V Relay , R1 = 178 W Nominal @ RA = 25°C Assuming ±10% Make Tolerance, R1 = 178 W * 0.9 = , 118 W Min @ -40°C IO Max = (5.5 V Max - 0.25V) /118 W = 45 mA +4.5 TO +5.5 Vdc + AROMAT TX2- 5V - Vout (3) NUD3105LT1 AROMAT JS1E- 5V + +4.5 TO +5.5 Vdc + AROMAT JS1E- 5V - + AROMAT JS1E- 5V - AROMAT JS1E- 5V


Original
PDF NUD3105 NUD3105/D NUD310 NUD3105LT1
2007 - JS1E-5V

Abstract: NUD3105DDMT1 aromat 5v 6 pin relay Aromat relays NUD3105DMT1G NUD3105DMT1 NUD3105D dual coil latching relay JS1e ez 806
Text: ) NUD3105DDMT1 Vin (2) Vin (5) GND (1) GND (4) Figure 12. A 200 mW, 5.0 V Dual Coil Latching Relay , Between D.C. Relay Coil and http://onsemi.com Relay , Inductive Load Driver Silicon SMALLBLOCK] 0.5 , Current Calculation for TX2- 5V Relay , R1 = 178 W Nominal @ RA = 25°C Assuming ±10% Make Tolerance, R1 = 178 W * 0.9 = 160 W Min @ TA = 25°C - - TC for Annealed Copper Wire is 0.4%/°C AROMAT JS1E- 5V , mA AROMAT JS1E- 5V + + + +4.5 TO +5.5 Vdc + +4.5 TO +5.5 Vdc + AROMAT JS1E- 5V


Original
PDF NUD3105D NUD3105D/D JS1E-5V NUD3105DDMT1 aromat 5v 6 pin relay Aromat relays NUD3105DMT1G NUD3105DMT1 NUD3105D dual coil latching relay JS1e ez 806
2009 - AROMAT JS1E-5V

Abstract: aromat relay Aromat relays NUD3105 NUD3105LT1 NUD3105LT1G
Text: Interface Between DC Relay Coil and · · · · · · Sensitive Logic Circuits Optimized to Switch , Latching Relay Application with 3.0 V Level Translating Interface http://onsemi.com 6 NUD3105 Max Continuous Current Calculation for TX2- 5V Relay , R1 = 178 W Nominal @ RA = 25°C Assuming ±10% Make , AROMAT JS1E- 5V R1 = 160 W * [1+(0.004) * (-40°-25°)] = 118 W Min @ -40°C IO Max = (5.5 V Max - 0.25V) /118 W = 45 mA AROMAT JS1E- 5V + + + +4.5 TO +5.5 Vdc + +4.5 TO +5.5 Vdc +


Original
PDF NUD3105 NUD3105/D AROMAT JS1E-5V aromat relay Aromat relays NUD3105 NUD3105LT1 NUD3105LT1G
2004 - ez 802

Abstract: No abstract text available
Text: ) GND (2) Figure 12. A 200 mW, 5.0 V Dual Coil Latching Relay Application with 3.0 V Level Translating Interface http://onsemi.com 6 NUD3105 Max Continuous Current Calculation for TX2- 5V Relay , Driver Interface Between D.C. Relay Coil and · · · · · Sensitive Logic Circuits Optimized to Switch , Max = (5.5 V Max - 0.25V) /118 W = 45 mA +4.5 TO +5.5 Vdc + AROMAT TX2- 5V - Vout (3) NUD3105LT1 AROMAT JS1E- 5V + +4.5 TO +5.5 Vdc + AROMAT JS1E- 5V - + AROMAT JS1E- 5V - AROMAT JS1E- 5V + - - Vout (3


Original
PDF NUD3105 NUD3105/D ez 802
2004 - Aromat relays

Abstract: 318F NUD3105D NUD3105DMT1 aromat 5v 6 pin relay aromat relay JS1E
Text: ) GND (1) GND (4) Figure 12. A 200 mW, 5.0 V Dual Coil Latching Relay Application with 3.0 V , Interface Between D.C. Relay Coil and · · · · · Sensitive Logic Circuits Optimized to Switch Relays , for TX2- 5V Relay , R1 = 178 W Nominal @ RA = 25°C Assuming ±10% Make Tolerance, R1 = 178 W * 0.9 = 160 W Min @ TA = 25°C - - TC for Annealed Copper Wire is 0.4%/°C AROMAT JS1E- 5V R1 = 160 , AROMAT JS1E- 5V + + + +4.5 TO +5.5 Vdc + +4.5 TO +5.5 Vdc + AROMAT JS1E- 5V


Original
PDF NUD3105D NUD3105D/D Aromat relays 318F NUD3105D NUD3105DMT1 aromat 5v 6 pin relay aromat relay JS1E
2006 - JS1E-5V

Abstract: JS1e Aromat tx2 NUD3105 NUD3105LT1G AROMAT AROMAT JS1E-5V Aromat relays NUD3105LT1
Text: , 5.0 V Dual Coil Latching Relay Application with 3.0 V Level Translating Interface http://onsemi.com 6 NUD3105 Max Continuous Current Calculation for TX2- 5V Relay , R1 = 178 W Nominal @ RA = 25 , Interface Between DC Relay Coil and · · · · · · Sensitive Logic Circuits Optimized to Switch , Wire is 0.4%/°C AROMAT JS1E- 5V R1 = 160 W * [1+(0.004) * (-40°-25°)] = 118 W Min @ -40°C IO Max = (5.5 V Max - 0.25V) /118 W = 45 mA AROMAT JS1E- 5V + + + +4.5 TO +5.5 Vdc + +4.5


Original
PDF NUD3105 NUD3105/D JS1E-5V JS1e Aromat tx2 NUD3105 NUD3105LT1G AROMAT AROMAT JS1E-5V Aromat relays NUD3105LT1
2006 - ez 802

Abstract: aromat relay Aromat relays 318F NUD3105D NUD3105DMT1 NUD3105DMT1G aromat 5v 8 pin relay
Text: ) GND (1) GND (4) Figure 12. A 200 mW, 5.0 V Dual Coil Latching Relay Application with 3.0 V , Between D.C. Relay Coil and · · · · · · Sensitive Logic Circuits Optimized to Switch Relays from , for TX2- 5V Relay , R1 = 178 W Nominal @ RA = 25°C Assuming ±10% Make Tolerance, R1 = 178 W * 0.9 = 160 W Min @ TA = 25°C - TC for Annealed Copper Wire is 0.4%/°C AROMAT JS1E- 5V R1 = 160 W , AROMAT JS1E- 5V + + + +4.5 TO +5.5 Vdc + +4.5 TO +5.5 Vdc + AROMAT JS1E- 5V


Original
PDF NUD3105D NUD3105D/D ez 802 aromat relay Aromat relays 318F NUD3105D NUD3105DMT1 NUD3105DMT1G aromat 5v 8 pin relay
1997 - Not Available

Abstract: No abstract text available
Text: 48 G6S-2F-TR-DC5 to 48 G6S-2G-DC5 to 48 G6S-2G-TR-DC5 to 48 Aromat TX2- 5V to 48V TX2SA- 5V to , ® G6S Relays • True surface mount, low signal relay State-of-the-Art SMT Design , 200 140 140 140 200 DPDT DPDT DPDT DPDT DPDT DPDT DPDT DPDT DPDT DPDT DPDT DPDT , ) COIL DATA Pickup voltage Dropout voltage Maximum voltage 75% max. 10% min. 200% at 23°C max , ,000 VAC, 50/60 Hz for 1 minute between coil and contacts 1,500 VAC, 50/60 Hz for 1 minute between


Original
PDF
2009 - Not Available

Abstract: No abstract text available
Text: ) NUD3105DDMT1 Vin (2) Vin (5) GND (1) GND (4) Figure 12. A 200 mW, 5.0 V Dual Coil Latching Relay , Current Calculation for TX2− 5V Relay , R1 = 178 W Nominal @ RA = 25°C Assuming ±10% Make Tolerance , AROMAT JS1E− 5V R1 = 160 W * [1+(0.004) * (−40°−25°)] = 118 W Min @ −40°C IO Max = (5.5 V Max − 0.25V) /118 W = 45 mA AROMAT JS1E− 5V + + + +4.5 TO +5.5 Vdc + +4.5 TO +5.5 Vdc + AROMAT JS1E− 5V AROMAT TX2− 5V AROMAT JS1E− 5V − − Vout (3) â


Original
PDF NUD3105D NUD3105D/D
2004 - Not Available

Abstract: No abstract text available
Text: ) GND (2) Figure 12. A 200 mW, 5.0 V Dual Coil Latching Relay Application with 3.0 V Level Translating Interface http://onsemi.com 6 NUD3105 Max Continuous Current Calculation for TX2- 5V Relay , Driver Interface Between D.C. Relay Coil and · · · · · Sensitive Logic Circuits Optimized to Switch , Max = (5.5 V Max - 0.25V) /118 W = 45 mA +4.5 TO +5.5 Vdc + AROMAT TX2- 5V - Vout (3) NUD3105LT1 AROMAT JS1E- 5V + +4.5 TO +5.5 Vdc + AROMAT JS1E- 5V - + AROMAT JS1E- 5V - AROMAT JS1E- 5V + - - Vout (3


Original
PDF NUD3105 NUD3105/D
2004 - aromat relay js1e

Abstract: No abstract text available
Text: ) Vin (5) GND (1) GND (4) Figure 12. A 200 mW, 5.0 V Dual Coil Latching Relay Application with , Driver Interface Between D.C. Relay Coil and · · · · · Sensitive Logic Circuits Optimized to Switch , Calculation for TX2- 5V Relay , R1 = 178 W Nominal @ RA = 25°C Assuming ±10% Make Tolerance, R1 = 178 W * 0.9 = , 118 W Min @ -40°C IO Max = (5.5 V Max - 0.25V) /118 W = 45 mA +4.5 TO +5.5 Vdc + AROMAT TX2- 5V - Vout (3) NUD3105DLT1 AROMAT JS1E- 5V + +4.5 TO +5.5 Vdc + AROMAT JS1E- 5V - + AROMAT JS1E- 5V - AROMAT JS1E- 5V


Original
PDF NUD3105D NUD3105D/D aromat relay js1e
2009 - NUD3105D D

Abstract: Aromat R relays aromat relay js1e aromat js1e Aromat tx2 Aromat relay ez 802 NUD3105D JS1E-5V js1e
Text: ) GND (1) GND (4) Figure 12. A 200 mW, 5.0 V Dual Coil Latching Relay Application with 3.0 V , Between D.C. Relay Coil and · · · · · · Sensitive Logic Circuits Optimized to Switch Relays from , for TX2- 5V Relay , R1 = 178 W Nominal @ RA = 25°C Assuming ±10% Make Tolerance, R1 = 178 W * 0.9 = 160 W Min @ TA = 25°C - TC for Annealed Copper Wire is 0.4%/°C - AROMAT JS1E- 5V R1 = , AROMAT JS1E- 5V + + + +4.5 TO +5.5 Vdc + +4.5 TO +5.5 Vdc + AROMAT JS1E- 5V


Original
PDF NUD3105D NUD3105D/D NUD3105D D Aromat R relays aromat relay js1e aromat js1e Aromat tx2 Aromat relay ez 802 NUD3105D JS1E-5V js1e
2001 - 74HC04

Abstract: 74ls04 power dissipation ic 74LS04 74LS04 ttl IC - 74LS04 Aromat tx2 74LS04 dissipation 74HC04 equivalent dual coil latching relay 74ls04 propagation delay
Text: EQUIVALENT 6.8 V 6.8 V GND (2) GND (2) Figure 2. A 3.0­V, 200­mW Dual Coil Latching Relay , EQUIVALENT 6.8 V 6.8 V GND (2) GND (2) Figure 3. A 3.0­V, 200­mW Dual Coil Latching Relay , (1) GND (2) BAL99LT 1 74LS04 6.8 V 6.8 V Figure 4. A 3.0­V, 200­mW Dual Coil Latching Relay , Model Provides a Robust Driver Interface Between Relay Coil and Sensitive Logic Circuits Telecom Line , . Typical 5.0 V, 140 mW Coil Dual Relay Application http://onsemi.com 4 MDC3205 TYPICAL OPERATING


Original
PDF r14525 MDC3205/D 74HC04 74ls04 power dissipation ic 74LS04 74LS04 ttl IC - 74LS04 Aromat tx2 74LS04 dissipation 74HC04 equivalent dual coil latching relay 74ls04 propagation delay
2004 - dual coil latching relay

Abstract: ZENER DIODE 814
Text: ) GND (2) Figure 12. A 200 mW, 5.0 V Dual Coil Latching Relay Application with 3.0 V Level Translating Interface http://onsemi.com 6 NUD3105 Max Continuous Current Calculation for TX2- 5V Relay , Driver Interface Between D.C. Relay Coil and · · · · · Sensitive Logic Circuits Optimized to Switch , Max = (5.5 V Max - 0.25V) /118 W = 45 mA +4.5 TO +5.5 Vdc + AROMAT TX2- 5V - Vout (3) NUD3105LT1 AROMAT JS1E- 5V + +4.5 TO +5.5 Vdc + AROMAT JS1E- 5V - + AROMAT JS1E- 5V - AROMAT JS1E- 5V + - - Vout (3


Original
PDF NUD3105 NUD3105/D dual coil latching relay ZENER DIODE 814
MMS205

Abstract: r50e2y1 CLARE PRMA1A05 MMS-205 gordos relay Aromat DPDT Single Coil 5v latching relay DSS41A05B 721C2410 Transistor B556 B556
Text: PATTERN SINGLE SIDE STABLE DESIGN 5KV SURGE RESISTANCE COIL TO FRAME 6, 12, 24 Not applicable 0.4 , by simply reversing the relay coil polarity to close the switch, or by employing a second coil with , relay coil . In typical true SPDT designs, the armature is mechanically tensioned against the normally , that position when coil power is removed from the relay coil . 9/04 6.4 ELECTRICAL , a single sensitive capsule to several watts for multipole relays. OPERATE TIME: The coil time


Original
PDF 117SIP 107DIP 171DIP 172DIP 102VX/HVX 117SIP, 107DIP, 171DIP/172DIP 102VX 102HVX MMS205 r50e2y1 CLARE PRMA1A05 MMS-205 gordos relay Aromat DPDT Single Coil 5v latching relay DSS41A05B 721C2410 Transistor B556 B556
2006 - 74HC04

Abstract: ic 74LS04 74ls04 power dissipation 74LS04 circuit diagram with voltage dual coil latching relay DC 74HC04 TTL 74LS04 propagation delay IC - 74LS04 74ls04 propagation delay MDC3205
Text: ) Figure 2. A 3.0-V, 200-mW Dual Coil Latching Relay Application with 5.0 V-HCMOS Interface +3.0 VDD , ) Figure 3. A 3.0-V, 200-mW Dual Coil Latching Relay Application with 3.0 V-HCMOS Interface http , ) GND (2) Figure 4. A 3.0-V, 200-mW Dual Coil Latching Relay Application with TTL Interface +4.5 , Robust Driver Interface Between Relay Coil and Sensitive Logic Circuits Telecom Line Cards and Telephony , Coil Dual Relay Application http://onsemi.com 4 MDC3205 TYPICAL OPERATING WAVEFORMS (Circuit of


Original
PDF MDC3205 MDC3205/D 74HC04 ic 74LS04 74ls04 power dissipation 74LS04 circuit diagram with voltage dual coil latching relay DC 74HC04 TTL 74LS04 propagation delay IC - 74LS04 74ls04 propagation delay
2001 - 74LS04

Abstract: ic 74LS04 74hc04 logic symbol 74LS04 74LS04 NOT gate Aromat tx2 pin DIAGRAM OF IC 74ls04 dual coil latching relay 74HC04 NOT GATE datasheet 74HC04 equivalent
Text: ) 74HC04 OR EQUIVALENT GND (2) Figure 2. A 3.0­V, 200­mW Dual Coil Latching Relay Application with , Vin (1) 33 k GND (2) GND (2) Figure 3. A 3.0­V, 200­mW Dual Coil Latching Relay , ) GND (2) Figure 4. A 3.0­V, 200­mW Dual Coil Latching Relay Application with TTL Interface +4.5 , Driver Interface Between Relay Coil and Sensitive Logic Circuits CASE 29­11, STYLE 14 TO , 5. Typical 5.0 V, 140 mW Coil Dual Relay Application http://onsemi.com 4 MDC3205 TYPICAL


Original
PDF MDC3205 r14525 MDC3205/D 74LS04 ic 74LS04 74hc04 logic symbol 74LS04 74LS04 NOT gate Aromat tx2 pin DIAGRAM OF IC 74ls04 dual coil latching relay 74HC04 NOT GATE datasheet 74HC04 equivalent
2004 - 74HC04 equivalent

Abstract: MDC3105LT1 74LS04 Aromat relays Aromat S4EB-L2-5V quad 74HC04 NOT GATE datasheet 74HC04 BAL99LT1 MDC3105 MDC3105DMT1
Text: Dual Coil Latching Relay Application with 3.0 V-HCMOS Level Translating Interface http://onsemi.com 8 74HC04 OR EQUIVALENT MDC3105 Max Continuous Current Calculation for TX2- 5V Relay , R1 = , between D.C. Relay Coil and Sensitive Logic Circuits · Optimized to Switch Relays from a 3 V to 5 V Rail , - TC for Annealed Copper Wire is 0.4%/°C AROMAT JS1E- 5V R1 = 160 * [1+(0.004) * (-40°-25°)] = 118 Min @ -40°C IO Max = (5.5 V Max - 0.25V) /118 W = 45 mA AROMAT JS1E- 5V + + +


Original
PDF MDC3105 OT-23 MDC3105/D 74HC04 equivalent MDC3105LT1 74LS04 Aromat relays Aromat S4EB-L2-5V quad 74HC04 NOT GATE datasheet 74HC04 BAL99LT1 MDC3105 MDC3105DMT1
Supplyframe Tracking Pixel