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onsemi
FSQ0765RQLDTU Power Switch 6-Pin(6+Tab) TO-220F Rail - Bulk (Alt: FSQ0765RQLDTU)
FSQ0765RQLDTU ECAD Model
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Avnet Americas FSQ0765RQLDTU 0 4 Weeks 295 - - - $1.19028 $1.12226 Buy Now
onsemi
FSQ0565RQLDTU AC/DC Converters SMPS Power switch (QRC) 5A 650V - Bulk (Alt: FSQ0565RQLDTU)
FSQ0565RQLDTU ECAD Model
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Avnet Americas FSQ0565RQLDTU 0 4 Weeks 334 - - - $1.04832 $0.98842 Buy Now
Thomas & Betts
R-QL165W/840 165 WATT INDUCTION LAMP
R-QL165W/840 ECAD Model
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Newark R-QL165W/840 Bulk 0 1 - - - - - Buy Now
Sager R-QL165W/840 0 - - - - - Buy Now
ITT Interconnect Solutions
LEVER QLC DL
LEVER QLC ECAD Model
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Newark LEVER QLC Bulk 0 100 - - $13.64 $13.4 $13.4 Buy Now
Eaton Cutler-Hammer
BRQLW Handle Lockoff For BD, BQ, BQC Breakers
BRQLW ECAD Model
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Newark BRQLW Bulk 330 10 - $50.34 $38.78 $38.78 $38.78 Buy Now
Allied Electronics & Automation BRQLW Bulk 0 1 Weeks 10 - $36.24 $32.6 $32.6 $32.6 Get Quote
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Seek Thermal
RQ-LAHX Thermal Imaging Camera,320x240 Sensor,IP67 Waterproof,Reveal ShieldPro Series
RQ-LAHX ECAD Model
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Allied Electronics & Automation RQ-LAHX Bulk 0 5 - $799 $799 $799 $799 Get Quote
ITT Interconnect Solutions
LEVER-QLC
LEVER-QLC ECAD Model
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Onlinecomponents.com LEVER-QLC 0 - - $10.39 $10.39 $10.39 Buy Now
Master Electronics LEVER-QLC 0 - - $10.39 $10.39 $10.39 Buy Now
Fairchild Semiconductor Corporation
FSQ0565RQLDTU Switching Regulator/Controller, Current-mode, 75.8kHz Switching Freq-Max, PZIP6
FSQ0565RQLDTU ECAD Model
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Rochester Electronics FSQ0565RQLDTU 4,676 $1.008 $1.008 $0.9677 $0.9274 $0.9274 Buy Now
Fairchild Semiconductor Corporation
FSQ0765RQLDTU Switching Regulator/Controller, Current-mode, 75.8kHz Switching Freq-Max, PZIP6
FSQ0765RQLDTU ECAD Model
Distributors Part Package Stock Lead Time Min Order Qty 1 10 100 1,000 10,000 Buy
Rochester Electronics FSQ0765RQLDTU 68,558 $1.1445 $1.1445 $1.0987 $1.0529 $1.0529 Buy Now
Accessory Power
GRQLQCD100BOWS COMPACT CAMERA CASE (BLACKOUT)
GRQLQCD100BOWS ECAD Model
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NAC GRQLQCD100BOWS 0 - - - - - Get Quote

RQL datasheet (3)

Part ECAD Model Manufacturer Description Type PDF
RQL RQL ECAD Model Raltron Electronics Voltage Controlled Oscillator - VCO Original PDF
RQL1001JLAQH RQL1001JLAQH ECAD Model Renesas Technology SiGe MMIC High Frequency Low Noise Amplifier Original PDF
RQL1001JLTL-E RQL1001JLTL-E ECAD Model Renesas Technology SiGe MMIC High Frequency Low Noise Amplifier Original PDF

RQL Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
FB2012

Abstract: 74F786 FB2040
Text: Preliminary Specification December 06,1990 RQH[13-0]* RQL [13-0]* JTAG EN* PPE* BINIT* -SYSRST* - Vcc (3 , longest receives the grant. RQL [13-0]* I (BTL) Level 0 requests. Level 0 requests are serviced when no , GR[n]* will remain asserted until both RQH[n]* and RQL [n]* are released. PPE* I (TTL) Priority , ]* corresponds to an RQH[n]* and an RQL [n]*. Once asserted, a request must remain asserted until its , generated timing for RE* has an accuracy of 20%. Regardless of the state of RQH[n]* or RQL [n]*, GR[n]* will


OCR Scan
PDF FB2012 68-pin 74F786 74F50xxx FB2012 FB2040
2006 - MBR1100

Abstract: MBR1100G MBR1100RL MBR1100RLG
Text: ) RqL (A) RqJ(A) RqL (K) RqJ(K RqS(K) ) TA(A) TJ = 25°C fTEST = 1 MHz TA(K) PD , TL = Lead Temperature TJ = Junction Temperature RqS = Thermal Resistance, Heat Sink to Ambient RqL , , respectively.) Values for thermal resistance components are: RqL = 100°C/W/in typically and 120°C/W/in maximum


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PDF MBR1100 DO-41 MBR1100 MBR1100G MBR1100RL MBR1100RLG
2002 - marking B1100

Abstract: No abstract text available
Text: heat conduction through the leads) RqS(A) RqL (A) RqJ(A) RqJ(K) PD TL(A) TC(A) TJ TC(K) TL(K) RqL (K , Temperature TJ = Junction Temperature RqS = Thermal Resistance, Heat Sink to Ambient RqL = Thermal Resistance , refer to anode and cathode sides, respectively.) Values for thermal resistance components are: RqL = 100


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PDF MBR1100 marking B1100
2007 - 1N5822 PACKAGE

Abstract: 1N5821 half wave rectifier LLC diode schottky 1N5822 1N5822 1N5821RL 1N5821G 1N5820RLG 1N5820RL 1N5820G
Text: = Junction Temperature RqS = Thermal Resistance, Heatsink to Ambient RqL = Thermal Resistance , sides, respectively.) Values for thermal resistance components are: RqL = 42°C/W/in typically and 48 , WAVE 0.2 0.2 RqL (K) RqJ(K) PD TL(A) 5.0 10 20 RqJ(A) TA(A) dc 0.3 0.1 RqL (A) ÉÉÉÉÉÉÉÉ ÉÉÉÉÉÉÉÉ É É É ÉÉÉÉÉÉÉ É ÉÉÉÉÉÉÉ É PF(AV) , AVERAGE POWER


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PDF 1N5820, 1N5821, 1N5822 1N5820 1N5822 1N5822 PACKAGE 1N5821 half wave rectifier LLC diode schottky 1N5822 1N5821RL 1N5821G 1N5820RLG 1N5820RL 1N5820G
2003 - Not Available

Abstract: No abstract text available
Text: conduction through the leads) RqS(A) RqL (A) RqJ(A) RqJ(K) PD TL(A) TC(A) TJ TC(K) TL(K) RqL (K) RqS(K) TA(K , Junction Temperature RqS = Thermal Resistance, Heat Sink to Ambient RqL = Thermal Resistance, Lead to Heat , anode and cathode sides, respectively.) Values for thermal resistance components are: RqL = 100°C/W/in


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PDF MBR1100
2002 - B1100

Abstract: MBR1100 MBR1100RL
Text: 60 50 RqS(A) RqL (A) RqJ(A) TA(A) TJ = 25°C fTEST = 1 MHz RqL (K) RqJ(K) RqS , , Heat Sink to Ambient RqL = Thermal Resistance, Lead to Heat Sink RqJ = Thermal Resistance, Junction , and cathode sides, respectively.) Values for thermal resistance components are: RqL = 100°C/W/in


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PDF MBR1100 r14525 MBR1100/D B1100 MBR1100 MBR1100RL
2003 - B150

Abstract: B160 MBR150 MBR150RL MBR160 MBR160RL
Text: conduction through the leads) RqS(A) RqL (A) RqJ(A) TA(A) RqS(K) TA(K) RqL (K) RqJ(K) PD , .) Values for thermal resistance components are: RqL = 100°C/W/in typically and 120°C/W/in maximum. RqJ = , , Heat Sink to Ambient RqL = Thermal Resistance, Lead to Heat Sink RqJ = Thermal Resistance, Junction


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PDF MBR150, MBR160 MBR160 MBR150/D B150 B160 MBR150 MBR150RL MBR160RL
2006 - MBR1100

Abstract: MBR1100G MBR1100RL MBR1100RLG
Text: ) 150 C, CAPACITANCE (pF) 100 90 80 70 60 50 RqS(A) RqL (A) RqJ(A) TA(A) TJ = 25°C fTEST = 1 MHz RqL (K) RqJ(K) RqS(K) TA(K) PD TL(A) TC(A) TJ TC(K) TL(K , Junction Temperature RqS = Thermal Resistance, Heat Sink to Ambient RqL = Thermal Resistance, Lead to , .) Values for thermal resistance components are: RqL = 100°C/W/in typically and 120°C/W/in maximum. RJ =


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PDF MBR1100 MBR1100/D MBR1100 MBR1100G MBR1100RL MBR1100RLG
2002 - B150

Abstract: B160 MBR150 MBR150RL MBR160 MBR160RL
Text: : (For heat conduction through the leads) RqS(A) RqL (A) RqJ(A) TA(A) RqS(K) TA(K) RqL (K , , respectively.) Values for thermal resistance components are: RqL = 100°C/W/in typically and 120°C/W/in maximum , Resistance, Heat Sink to Ambient RqL = Thermal Resistance, Lead to Heat Sink RqJ = Thermal Resistance


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PDF MBR150, MBR160 MBR160 r14525 MBR150/D B150 B160 MBR150 MBR150RL MBR160RL
2002 - Not Available

Abstract: No abstract text available
Text: RqL (A) RqJ(A) RqJ(K) PD TC(K) TL(K) RqL (K) RqS(K) TA(K) (Subscripts A and K refer to anode and cathode sides, respectively.) Values for thermal resistance components are: RqL = 100°C/W/in typically and , Ambient RqL = Thermal Resistance, Lead to Heat Sink RqJ = Thermal Resistance, Junction to Case PD = Power


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PDF MBR150, MBR160 MBR160
2003 - B1100

Abstract: MBR1100 MBR1100RL
Text: through the leads) 150 C, CAPACITANCE (pF) 100 90 80 70 60 50 RqS(A) RqL (A) RqJ(A) TA(A) TJ = 25°C fTEST = 1 MHz RqL (K) RqJ(K) RqS(K) TA(K) PD TL(A) TC(A) TJ , Temperature TJ = Junction Temperature RqS = Thermal Resistance, Heat Sink to Ambient RqL = Thermal , .) Values for thermal resistance components are: RqL = 100°C/W/in typically and 120°C/W/in maximum. RJ =


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PDF MBR1100 MBR1100/D B1100 MBR1100 MBR1100RL
2006 - Not Available

Abstract: No abstract text available
Text: 60 50 RqS(A) RqL (A) RqJ(A) RqL (K) RqJ(K RqS(K) ) TA(A) TJ = 25°C fTEST , , Heat Sink to Ambient RqL = Thermal Resistance, Lead to Heat Sink RqJ = Thermal Resistance, Junction , anode and cathode sides, respectively.) Values for thermal resistance components are: RqL = 100°C/W


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PDF MBR1100 MBR1100/D
2004 - Not Available

Abstract: No abstract text available
Text: THERMAL CIRCUIT MODEL: (For heat conduction through the leads) RqS(A) TA(A) TL(A) TC(A) TJ RqL (A) RqJ(A) RqJ(K) PD TC(K) TL(K) RqL (K) RqS(K) TA(K) (Subscripts A and K refer to anode and cathode sides, respectively.) Values for thermal resistance components are: RqL = 100°C/W/in typically and 120°C/W/in maximum , Lead Temperature TJ = Junction Temperature RqS = Thermal Resistance, Heatsink-to-Ambient RqL = Thermal


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PDF MBR150, MBR160 MBR160 MBR150/160
2006 - MBR1100

Abstract: MBR1100G MBR1100RL MBR1100RLG
Text: 60 50 RqS(A) RqL (A) RqJ(A) RqL (K) RqJ(K RqS(K) ) TA(A) TJ = 25°C fTEST = , , Heat Sink to Ambient RqL = Thermal Resistance, Lead to Heat Sink RqJ = Thermal Resistance, Junction , and cathode sides, respectively.) Values for thermal resistance components are: RqL = 100°C/W/in


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PDF MBR1100 MBR1100/D MBR1100 MBR1100G MBR1100RL MBR1100RLG
2006 - external lead finish

Abstract: No abstract text available
Text: conduction through the leads) RqS(A) RqL (A) RqJ(A) RqJ(K ) RqL (K) RqS(K) TA(K) C, CAPACITANCE (pF , Ambient RqL = Thermal Resistance, Lead to Heat Sink RqJ = Thermal Resistance, Junction to Case PD = Power , components are: RqL = 100°C/W/in typically and 120°C/W/in maximum. RqJ = 36°C/W typically and 46°C/W maximum


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PDF MBR1100 MBR1100/D external lead finish
2006 - MBR160RLG

Abstract: MBR150 MBR150G MBR150RL MBR150RLG MBR160 MBR160G MBR160RL
Text: RqL (K) RqJ(K RqS(K) RqJA °C/W http://onsemi.com 3 TA(K) PD TL(A) Mounting Method RqJ(A) ) Typical Values for RqJA in Still Air 50 RqL (A) TC(A) TJ TC(K , are: RqL = 100°C/W/in typically and 120°C/W/in maximum. RqJ = 36°C/W typically and 46°C/W maximum , = Thermal Resistance, Heatsink-to-Ambient RqL = Thermal Resistance, Lead-to-Heatsink RqJ = Thermal


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PDF MBR150, MBR160 MBR160 MBR150/160 MBR150/D MBR160RLG MBR150 MBR150G MBR150RL MBR150RLG MBR160G MBR160RL
2007 - DIODE mr760

Abstract: MR756 MR752 MR754RLG mr760 DIODE MR760 MR754 MR760RL MR750RLG MR750RL
Text: ) CAPACITANCE LOADS I(pk) = 5 Iavg 28 24 10 Iavg 20 6F RqS(A) 20 Iavg 1F & 3F RqL (A) RqJ(A) TA(A) RqJ(K) RqL (K) RqS(K) TA(K) PF TL(A) TC(A) TJ TC(K) TL(K , RqL = Thermal Resistance, Lead to Heat Sink RqJ = Thermal Resistance, Junction to Case PF = Power , resistance components are: RqL = 40°C/W/in. Typically and 44°C/W/in Maximum. RqJ = 2°C/W typically and 4


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PDF MR750 MR754 MR760 MR750/D DIODE mr760 MR756 MR752 MR754RLG mr760 DIODE MR760RL MR750RLG MR750RL
Not Available

Abstract: No abstract text available
Text: Aluminum Electrolytic Capacitors RQL Features 105, 10,000 hours assured 10 ~ 18 with large permissible ripple current Pen type included RoHS Compliance Sleeve & Marking Color: Black & Golden SPECIFICATIONS Items Category Temperature Range Performance 400V -40 ~ +105 420 ~ 450V -25 ~ +105 (at 120Hz, 20) ±20% Capacitance Tolerance Time Leakage Current (at , 1.40 10k up 1.50 Aluminum Electrolytic Capacitors RQL DIAGRAM OF DIMENSIONS D P 15


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PDF 120Hz, 120Hz) Vent10
2006 - Not Available

Abstract: No abstract text available
Text: /W 3 — RqL (K) RqJ(K RqS(K) RqJA °C/W http://onsemi.com 3 TA(K) PD TL(A) Mounting Method RqJ(A) ) Typical Values for RqJA in Still Air 50 RqL (A , thermal resistance components are: RqL = 100°C/W/in typically and 120°C/W/in maximum. RqJ = 36°C/W , = Junction Temperature RqS = Thermal Resistance, Heatsink−to−Ambient RqL = Thermal Resistance


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PDF MBR150, MBR160 MBR160 MBR150/160 MBR150/D
2006 - MBR160RLG

Abstract: MBR150 MBR150G MBR150RL MBR150RLG MBR160 MBR160G MBR160RL
Text: 3 - RqL (K) RqJ(K RqS(K) RqJA °C/W http://onsemi.com 3 TA(K) PD TL(A) Mounting Method RqJ(A) ) Typical Values for RqJA in Still Air 50 RqL (A) TC(A) TJ , resistance components are: RqL = 100°C/W/in typically and 120°C/W/in maximum. RqJ = 36°C/W typically and 46 , Temperature RqS = Thermal Resistance, Heatsink-to-Ambient RqL = Thermal Resistance, Lead-to-Heatsink RqJ =


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PDF MBR150, MBR160 MBR160 MBR150/160 MBR150/D MBR160RLG MBR150 MBR150G MBR150RL MBR150RLG MBR160G MBR160RL
2007 - Not Available

Abstract: No abstract text available
Text: 6F 10 Iavg 20 (For Heat Conduction Through The Leads) RqS(A) 20 Iavg 1F & 3F RqL (A) RqJ(A) TA(A) RqJ(K) RqL (K) RqS(K) TA(K) PF TL(A) TC(A) TJ TC(K) TL(K , RqL = Thermal Resistance, Lead to Heat Sink RqJ = Thermal Resistance, Junction to Case PF = Power , resistance components are: RqL = 40°C/W/in. Typically and 44°C/W/in Maximum. RqJ = 2°C/W typically and


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PDF MR750 MR754 MR760 MR750/D
2004 - DIODE mr760

Abstract: MR756 ac voltmeter circuit diagrams MR750 MR752 equivalent mr760 DIODE MR756 equivalent MR750RL MR751 MR751G
Text: ) CAPACITANCE LOADS I(pk) = 5 Iavg 28 24 10 Iavg 20 6F RqS(A) 20 Iavg 1F & 3F RqL (A) RqJ(A) TA(A) RqL (K) RqJ(K) RqS(K) TA(K) PF TL(A) TC(A) TJ TC(K) TL(K , RqL = Thermal Resistance, Lead to Heat Sink RqJ = Thermal Resistance, Junction to Case PF = Power , resistance components are: RqL = 40°C/W/in. Typically and 44°C/W/in Maximum. RqJ = 2°C/W typically and 4


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PDF MR750 MR754 MR760 MR750/D DIODE mr760 MR756 ac voltmeter circuit diagrams MR752 equivalent mr760 DIODE MR756 equivalent MR750RL MR751 MR751G
2004 - Not Available

Abstract: No abstract text available
Text: RqL (A) RqJ(A) RqJ(K) PD TC(K) TL(K) RqL (K) RqS(K) TA(K) (Subscripts A and K refer to anode and cathode sides, respectively.) Values for thermal resistance components are: RqL = 100°C/W/in typically and , , Heatsink-to-Ambient RqL = Thermal Resistance, Lead-to-Heatsink RqJ = Thermal Resistance, Junction-to-Case PD = Power


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PDF MBR150, MBR160 MBR160 MBR150/160 MBR150/D
VCO Selector Guide

Abstract: RQRA-0250-0500-1 RQSX-1710-1920 RQRH-0350-0700 RQCA-0400-0460 RQRA-0375-0420 RQLA-0115-0135 RQRA-0300-0500 RQRA RQRB-0925-1650
Text: 5 ± 0.25 RQCA-0920-0980 920 980 0.5 4.5 5 ± 0.25 RQLA-0108-0147 108 147 0 5 5 ± 0.25 RQLA-0112-0151 112 151 0.5 4.5 5 ± 0.25 RQLA-0115-0135 115 135 0 3 RQLA-0120-0150 120 150 0.5 4.5 5 ± 0.25 RQLA-0120-0160 120 160 0 10 5 ± 0.25 RQLA-0140-0170 140 170 0 10 5 ± 0.25 RQLA-0160-0165 160 165 1 4 5 ± 0.25 RQLA-0204-0206 204 206 1 4 RQLA-0390-0410 390 410 RQLA-0415-0435 Raltron VCO Part Number Supply


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PDF RQCA-0110-0140 RQCA-0400-0430-M RQCA-0400-0460 RQCA-0421-0441 RQCA-0430-0470 RQCA-0741-0755 RQCA-0754-0779 RQCA-0799-0824 RQCA-0920-0980 RQLA-0108-0147 VCO Selector Guide RQRA-0250-0500-1 RQSX-1710-1920 RQRH-0350-0700 RQCA-0400-0460 RQRA-0375-0420 RQLA-0115-0135 RQRA-0300-0500 RQRA RQRB-0925-1650
2005 - half bridge LLC inverter

Abstract: diode 1n5822g 1N5822 1N5821RL 1N5821G 1N5821 1N5820RLG 1N5820RL 1N5820G 1N5820
Text: Lead Temperature TJ = Junction Temperature RqS = Thermal Resistance, Heatsink to Ambient RqL = , ) refer to anode and cathode sides, respectively.) Values for thermal resistance components are: RqL = , Length, L (in) Mounting Method 3 RqS(K) SQUARE WAVE TJ 125°C 0.3 RqL (K) RqJ(K PD TL(A) 5.0 10 20 0.2 0.2 RqJ(A) ) 0.3 0.1 RqL (A) ÉÉÉÉÉÉÉÉ ÉÉÉÉÉÉÉÉ


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PDF 1N5820, 1N5821, 1N5822 1N5820 1N5822 1N5820/D half bridge LLC inverter diode 1n5822g 1N5821RL 1N5821G 1N5821 1N5820RLG 1N5820RL 1N5820G
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