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180MS

Catalog Datasheet MFG & Type PDF Document Tags

circuit diagram of sequential LED

Abstract: debounce time: 22ms, 45ms, 90ms, 180ms. (0µs for KEY1 CDS device) ­ Envelope decay: Fast, Middle, Slow ­ , KEY KEY1 Key trigger KEY2 CDS trigger KEY1 RPH Debounce 22/45/90/ 180ms 100K (VDD=3V) Follow KEY1 Active Pull-high resistance100K (VDD=3V) 22, 45, 90 or 180ms debounce time by mask , trigger input is valid only when a high to low transition occurs. 0/22/45/ 90/180ms Note: Only one , switch trigger mode. However, the KEY2 debounce time can be optioned as 22, 45, 90 or 180ms when KEY1
Holtek
Original
circuit diagram of sequential LED HT387A 1024KH 0000H

CK722

Abstract: SAC440 4.0p PEt u47a D 93# BCW61AT 150m» 180MS 1.2m SJ 32 5.0 100m 20n§ 5.00 2.Om0 200 18 2.7k 1.5 6.0pSEl PE0 u56a A 94# BCW61 Bt 150m» 180MS 1.2m SJ 32 5 0 100m 20ni 5.00 2.Om0 260 24 3.6 2.0 6.0pS , pe0 u56a A 97# L3 150m 180MS 1.5m ♦ J 50 40 5 0 100m 1OOn0 6.00 1.Om0 60 tA 5.5p0 e u56b A 98# M4 150m 180MS 1.5m ♦ J 50 40 5 0 100m 10On0 6.00 1.Om0 90 tA e 99# M5 150m 180M5 1.5m ♦ J 50 40 5 0 100m 10On0 6.00 1.Om0 135 tA e 100# M6 150m 180MS 1.5m ♦ J 50 40 5.0 100m
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OCR Scan
NS6205 CK722 SAC440 CK721 SA495 CK725 SA537 BCW61D 2N2904/TPT 200M5A BC196A 200MI BFS32P

AFAA

Abstract: marking ADAA programmed threshold. It remains asserted for 180ms (typ.) after the input subsequently rises back above , generation (180ms Typ) · Choice of threshold voltages (contact Kingbor regarding availability) · , . Asserted whenever VCC falls below the threshold voltage. It will remain asserted for no less than 180ms , period of 180ms after VCC has risen above the reset threshold voltage. The reset function ensures the
Kingbor Technology
Original
KB809 AFAA marking ADAA sot-23 marking AFAA adaa C956 SOT-23 adaa KB811/812

transistor A495

Abstract: r107c 16# 17# 18# L4 L5 L6 150m 150m 150m 180MS 180MS 180MS 1.5m 1.5m 1.5m ♦ J ♦ J ♦ J 50 50 50 40 40 , 5.5pta 5.5pg 5.5dE) E E E 19# 20# 21# L7 M3 BFY371 150m 150m 150m 180MS 180MS 200MSA 1.5m 1.5m 1.0m â
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OCR Scan
2N778 BC129 BC131 transistor A495 r107c BF187 K5010 A495 2SC622 FK2484 FV2484 60MSA FK3299T FV3299

K 112 C945

Abstract: transistor c945 , 90ms, 180ms. (0|is for KEY1 CDS device) - Envelope decay: Fast, Middle, Slow - AUD output controlled by , provided: - Pull-high resistanceslOOKQ (VDD=3V) - 22,45,90 or 180ms debounce time by m ask option Notice , ce 22/45/90/ 180ms 100KQ (VDD=3V) Follow KEY1 Active 0/22/45/ 90/180ms Note: Only one key can , as 22, 45, 90 or 180ms when KEY1 is in the CDS mode. Oscillator An active pull-high resistor can , ih - 0, 22, 45, 90 or 180ms debounce time by m ask option An 0 debounce time can be selected for KEY1
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OCR Scan
K 112 C945 transistor c945 TRANSISTOR c945 p

germanium transistor CK722

Abstract: CK722 4.0p PEt u47a D 93# BCW61AT 150m» 180MS 1.2m SJ 32 5.0 100m 20n§ 5.00 2.Om0 200 18 2.7k 1.5 6.0pSEl PE0 u56a A 94# BCW61 Bt 150m» 180MS 1.2m SJ 32 5 0 100m 20ni 5.00 2.Om0 260 24 3.6 2.0 6.0pS , PE0 u56a A 97# L3 150m 180MS 1.5m ♦ J 50 40 5 0 100m 1OOn0 6.00 1.Om0 60 tA 5.5p0 E u56b A 98# M4 150m 180MS 1.5m ♦ J 50 40 5 0 100m 10On0 6.00 1.Om0 90 tA E 99# M5 150m 180M5 1.5m ♦ J 50 40 5 0 100m 10On0 6.00 1.Om0 135 tA E 100# M6 150m 180MS 1.5m ♦ J 50 40 5.0 100m
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OCR Scan
germanium transistor CK722 SSA480 SA52B 2sa525 SA5-37 2N3400 NS949 NS950 S18000 2SC479H BSW10 200MIA

PI3020

Abstract: cis sensor V V ma ma ma V V MHz % ns ms 0 C (1) Tested at 5.0MHz and 180ms. (2) Also used as , % Note Tested @ 5 MHz clock frequency Test at Tint=180ms See note 7 for MTF & DOF , , start pulses. The module was test at 180ms, but it will operate to 167ms with clocking speed of 5.0MHz
Peripheral Imaging
Original
PI225MC-A6 200DPI PI3020 cis sensor

SN29500

Abstract: ML100 ) 17/35A 17/35A 17/35A 17/35A 26/30A 22/37A 22/37A 22/37A 22/37A 40/180ms 40/180ms 40/180ms 40/180ms 47/48ms 41/46ms 41/46ms 38/44ms 38/44ms 85-375Vdc
PULS
Original
SN29500 ML100 10a13 SEMIF47 MP-300

r107c

Abstract: 2SC622 16# 17# 18# L4 L5 L6 150m 150m 150m 180MS 180MS 180MS 1.5m 1.5m 1.5m ♦ J ♦ J ♦ J 50 50 50 40 40 , 5.5pta 5.5pg 5.5dE) E E E 19# 20# 21# L7 M3 BFY371 150m 150m 150m 180MS 180MS 200MSA 1.5m 1.5m 1.0m â , 50nt 35nt 400nt 80nt 150m» 5.0 0 2.Om0 350 25 4.5p$0 N-PE0t Si 150J u56a A 38# BCW60D 180MS 50nt , 80nt 150m* 5.0 0 2.Om0 250 25 6.Op$0 P-PE0t Si 150J u56a A ' 41# BCW61C 180MS 50nt 35nt 400n 80nt
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OCR Scan
BFS29P SE504 2SC621 2sc113 2SC804 BF207 ST30100 NS2100 200MS NS2101 BSW88 BSW89

2N1103

Abstract: 2n1606 4.0p PEt u47a D 93# BCW61AT 150m» 180MS 1.2m SJ 32 5.0 100m 20n§ 5.00 2.Om0 200 18 2.7k 1.5 6.0pSEl PE0 u56a A 94# BCW61 Bt 150m» 180MS 1.2m SJ 32 5 0 100m 20ni 5.00 2.Om0 260 24 3.6 2.0 6.0pS , pe0 u56a A 97# L3 150m 180MS 1.5m ♦ J 50 40 5 0 100m 1OOn0 6.00 1.Om0 60 tA 5.5p0 e u56b A 98# M4 150m 180MS 1.5m ♦ J 50 40 5 0 100m 10On0 6.00 1.Om0 90 tA e 99# M5 150m 180M5 1.5m ♦ J 50 40 5 0 100m 10On0 6.00 1.Om0 135 tA e 100# M6 150m 180MS 1.5m ♦ J 50 40 5.0 100m
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OCR Scan
2N1103 2n1606 2SC166 2SC167 2SA37 2sc85 2N3602 2N3603 2N3604 USAF501ES001M JAN2N3789 JAN2N3790

germanium transistor CK722

Abstract: CK721 4.0p PEt u47a D 93# BCW61AT 150m» 180MS 1.2m SJ 32 5.0 100m 20n§ 5.00 2.Om0 200 18 2.7k 1.5 6.0pSEl PE0 u56a A 94# BCW61 Bt 150m» 180MS 1.2m SJ 32 5 0 100m 20ni 5.00 2.Om0 260 24 3.6 2.0 6.0pS , PE0 u56a A 97# L3 150m 180MS 1.5m ♦ J 50 40 5 0 100m 1OOn0 6.00 1.Om0 60 tA 5.5p0 E u56b A 98# M4 150m 180MS 1.5m ♦ J 50 40 5 0 100m 10On0 6.00 1.Om0 90 tA E 99# M5 150m 180M5 1.5m ♦ J 50 40 5 0 100m 10On0 6.00 1.Om0 135 tA E 100# M6 150m 180MS 1.5m ♦ J 50 40 5.0 100m
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OCR Scan
50M5A 2N1661 usaf520es070 usaf521es071m usaf521es071 CK790 BSW39 BSW40 MM2193A 2SA312 12-IB

fa5540

Abstract: FA5542 OVP 2 1/2 FB 1V 7.2V Soft start (1ms) Timer latch (40µs) Timer 180ms VCC , Vcc 10.2V 9.0V Start up circuit FB pin 3.3V Timer operation 180ms 180ms 1440ms 180ms Timer output 1440ms Switching Normal load Over load Normal load Fig.7 Operation at overload (FA5540) If an overload condition continues more than 180ms, switching is forced to , 180ms and after that Vcc is provided by a startup circuit for 1260ms and the operation halt condition
Fuji Electric
Original
D3SBA60 ERA38-06 FA5542 fa5541 mosfet 5542 5 pin voltage comparator IC capacitor 3300uf x 50v fuji capacitor FA5540/5541/5542 YG865C15R 9900F 2SK3687

PCMB136T

Abstract: PCMB136T-220MS -150MS PCMB136T-180MS PCMB136T-220MS PCMB136T-270MS PCMB136T-330MS PCMB136T-470MS PCMB136T-680MS PCMB136T , 7 8 9 0.0 10 11 12 13 14 0 0 1 2 3 4 5 DC BIAS(Amps) PCMB136T-180MS
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Original
PCMB136T-000 PCMB136T-150MS PCMB136T-151MS 330ms PCMB136T-120MS PCMB136T-180MS PCMB136T-101MS PCMB136T-121MS
Abstract: ) Ausschalt-Verzögerung (ca. 180ms) * Abstand zwischen 2 Triggerimpulsen gröÃer als Entprellzeit Range adjustment , ) Ausschalt-Verzögerung (ca. 180ms) * Abstand zwischen 2 Triggerimpulsen gröÃer als Entprellzeit 20.04.2013 â LUTZE
Original
HYS-0830

transistor A495

Abstract: 2SC622 16# 17# 18# L4 L5 L6 150m 150m 150m 180MS 180MS 180MS 1.5m 1.5m 1.5m ♦ J ♦ J ♦ J 50 50 50 40 40 , 5.5pta 5.5pg 5.5dE) E E E 19# 20# 21# L7 M3 BFY371 150m 150m 150m 180MS 180MS 200MSA 1.5m 1.5m 1.0m â
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OCR Scan
f4 f 150s BF226 2n3131 MM1758 transistor A345 bsy36 2SA405 GME9021 PET9003 300MS 300MSA PET9021

bp 3125

Abstract: BL0952 90msCF 180ms CF CF CF F1,F2 BL0952 t5 t6 F1,F2 BL0952 t2 t3 -40~+85°C , 1.8MHz F1,F2 290ms CF 180ms F1F2 Freq = 6.625×(U AP ×I A +U BP ×I B +U CP ×IC )×F1-5 2 VREF
Shanghai Belling
Original
bp 3125 65HZ S 05L DIP24 1223H

MA7805

Abstract: 2SA542 4.0p PEt u47a D 93# BCW61AT 150m» 180MS 1.2m SJ 32 5.0 100m 20n§ 5.00 2.Om0 200 18 2.7k 1.5 6.0pSEl PE0 u56a A 94# BCW61 Bt 150m» 180MS 1.2m SJ 32 5 0 100m 20ni 5.00 2.Om0 260 24 3.6 2.0 6.0pS , PE0 u56a A 97# L3 150m 180MS 1.5m ♦ J 50 40 5 0 100m 1OOn0 6.00 1.Om0 60 tA 5.5p0 E u56b A 98# M4 150m 180MS 1.5m ♦ J 50 40 5 0 100m 10On0 6.00 1.Om0 90 tA E 99# M5 150m 180M5 1.5m ♦ J 50 40 5 0 100m 10On0 6.00 1.Om0 135 tA E 100# M6 150m 180MS 1.5m ♦ J 50 40 5.0 100m
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OCR Scan
MA7805 2SA542 100mW GERMANIUM PNP LOW POWER 2SA629 2N2569 CK791 BVEE0-10V NS3108 NS3109 NS3110 IB-10 BVEB0-30V

BL6511

Abstract: 90msCF 180ms CF CF CF F1,F2 BL6511 t5 t6 F1,F2 BL6511 t2 t3 -40~+85°C , 1.8MHz F1,F2 290ms CF 180ms F1F2 Freq = 6.625×(U AP ×I A +U BP ×I B +U CP ×IC )×F1-5 2 VREF
Shanghai Belling
Original

1771-OD16

Abstract: 1771OD16 radiated electrical noise. The delay due to filtering is 9.0 or 18.0ms for turning ac inputs on to off , 18.0ms position (Norm). Maximum and minimum filter times are shown in Table A. To set the filtering , (minimum) Input Signal Delay 74V ac; 105V dc ac only; Selectable: 9ms or 18.0ms, on to off ; dc: 9.0ms
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Original
1771-AL 1771-OD16 1771OD16 1771-OD16 wiring ALLEN-BRADLEY RESISTOR ID16 1771-ID16

transistor A495

Abstract: a495 transistor 16# 17# 18# L4 L5 L6 150m 150m 150m 180MS 180MS 180MS 1.5m 1.5m 1.5m ♦ J ♦ J ♦ J 50 50 50 40 40 , 5.5pta 5.5pg 5.5dE) E E E 19# 20# 21# L7 M3 BFY371 150m 150m 150m 180MS 180MS 200MSA 1.5m 1.5m 1.0m â
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OCR Scan
a495 transistor 2N3633 FET K5010 transistor bf214 transistor BC131 2SC621A 2N4872 ST6120 MM2550 900MSA 1000M5 1000MSA
Abstract: 16# 17# 18# L4 L5 L6 150m 150m 150m 180MS 180MS 180MS 1.5m 1.5m 1.5m ♦ J ♦ J ♦ J 50 50 50 40 40 , 5.5pta 5.5pg 5.5dE) E E E 19# 20# 21# L7 M3 BFY371 150m 150m 150m 180MS 180MS 200MSA 1.5m 1.5m 1.0m â ELM Technology
Original
ELM76 SC-70-5 ELM7630 ELM7640 ELM7655

how to control firing angle in triac with pwm

Abstract: how firing angle in triac OVP 2 1/2 FB 1V 7.2V Soft start (1ms) Timer latch (40µs) Timer 180ms VCC , Vcc 10.2V 9.0V Start up circuit FB pin 3.3V Timer operation 180ms 180ms 1440ms 180ms Timer output 1440ms Switching Normal load Over load Normal load Fig.7 Operation at overload (FA5540) If an overload condition continues more than 180ms, switching is forced to , 180ms and after that Vcc is provided by a startup circuit for 1260ms and the operation halt condition
ZiLOG
Original
how to control firing angle in triac with pwm how firing angle in triac triac control circuit 220v to 110v controlling heater with triac control triac DIAC 220v ac 50hz a circuit for firing angle in triac AP96Z8X0600
Abstract: length 180ms minimum - interval between the end of the reset pulse and the beginning of the next count , Length: _For resetting, 180ms minimum. There must be a pause of at least 50ms between ELM Technology
Original
SC-82AB

BS5409

Abstract: paso cero % Note Tested @ 5 MHz clock frequency Test at Tint=180ms See note 7 for MTF & DOF , , start pulses. The module was test at 180ms, but it will operate to 167ms with clocking speed of 5.0MHz , V V ma ma ma V V MHz % ns ms 0 C (1) Tested at 5.0MHz and 180ms. (2) Also used as
RS Components
Original
V9275 BS5409 paso cero contadores a di het ne pulsador rued
Abstract: 4.0p PEt u47a D 93# BCW61AT 150m» 180MS 1.2m SJ 32 5.0 100m 20n§ 5.00 2.Om0 200 18 2.7k 1.5 6.0pSEl PE0 u56a A 94# BCW61 Bt 150m» 180MS 1.2m SJ 32 5 0 100m 20ni 5.00 2.Om0 260 24 3.6 2.0 6.0pS , pe0 u56a A 97# L3 150m 180MS 1.5m ♦ J 50 40 5 0 100m 1OOn0 6.00 1.Om0 60 tA 5.5p0 e u56b A 98# M4 150m 180MS 1.5m ♦ J 50 40 5 0 100m 10On0 6.00 1.Om0 90 tA e 99# M5 150m 180M5 1.5m ♦ J 50 40 5 0 100m 10On0 6.00 1.Om0 135 tA e 100# M6 150m 180MS 1.5m ♦ J 50 40 5.0 100m ELM Technology
Original
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