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Part Manufacturer Description Datasheet Download Buy Part
LT1111CJ8-12 Linear Technology SWITCHING REG +12V OUT
LTC1263IS8#TR Linear Technology IC CONV DC/DC FLASHMEM 12V 8SOIC
LTC1044ACS8#PBF Linear Technology LTC1044A - 12V CMOS Voltage Converter; Package: SO; Pins: 8; Temperature Range: 0°C to 70°C
LTC1044ACS8#TRPBF Linear Technology LTC1044A - 12V CMOS Voltage Converter; Package: SO; Pins: 8; Temperature Range: 0°C to 70°C
LT1332CNW Linear Technology Wide Supply RangeLow Power RS232 Transceiver with 12V VPP Output for Flash Memory
LTC1044AIS8#PBF Linear Technology LTC1044A - 12V CMOS Voltage Converter; Package: SO; Pins: 8; Temperature Range: -40°C to 85°C

7805+12v+to+5v Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
transistor amplifier 5v to 15v

Abstract: DRS4485 transorb diode equivalent military mcm 1553 MUX8507 RDC5 HERMETIC SMD VRG8658 S485 S5035
Text: -Bit Resolver-to-Digital Conver ter Total dose 1 Mrad(Si) Low power + 5V @20mA typical Supports differential or single-ended inputs 3.3V to 5V digital interface logic voltage SMD 5962-04235 www.aeroflex.com/HiRel www.aeroflex.com/RDC 64 32 MUX8501 64 Son ( RD EF 2 4 5V +1 5V -1 + 5V 500 , Single 5V supply Thermistor temperature monitoring SMD 5962-09234 P WM5032 Pulse Width Modulator , DR S4485 R S485 Dual Transceiver Total dose > 100 krads(Si) RS485 interface with single 5V supply


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PDF RS485 S5035 WM5032 S4485 MIL-PRF-38534 transistor amplifier 5v to 15v DRS4485 transorb diode equivalent military mcm 1553 MUX8507 RDC5 HERMETIC SMD VRG8658 S485
1992 - ic08k

Abstract: LTC1272 LTC1198 LTC1196 LTC1099 LTC1098L LTC1098 LTC1096L LTC1096 LTC1591-1
Text: 3V to 5V , 1Msps, SO-8 10-Bit LTC1092 5V , 38ksps LTC1197 5V , 500ksps, SO-8 LTC1197L 3V, 250ksps , -Bit LTC1098 5V , 2-Ch, Micropower, SO-8 LTC1098L 3V, 2-Ch Micropower, SO-8 LTC1198 3V to 5V , 2-Ch 750ksps, SO , Products) 24-Bit 8-Bit LTC1099 5V , 400ksps LTC1406 5V , 20Msps 12-Bit LTC1272 5V , 250ksps, 0V to 5V Input LTC1273 5V , 300ksps, 0V to 5V Input LTC1274 5V , 100ksps,10mW LTC1275 ± 5V , 300ksps, ±2.5V , LTC1278-5 5V , 500ksps, 75mW LTC1279 5V , 600ksps, 60mW LTC1282 3V or ± 3V, 140ksps, 0V to 2.5V or ±1.25V


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PDF LTC1096 LTC1096L LTC1196 10-Bit LTC1092 38ksps LTC1197 500ksps, LTC1197L 250ksps, ic08k LTC1272 LTC1198 LTC1099 LTC1098L LTC1098 LTC1591-1
2003 - TGP2101-EPU

Abstract: No abstract text available
Text: designated as EPU are typically early in their characterization process prior to finalizing all electrical and process specifications. Specifications are subject to change without notice. TriQuint , Temperature 0 150 C 3/ 0 320 C 0 -65 to 150 C 1/ These ratings represent the maximum , temperature will directly affect the device median time to failure (MTTF). For maximum life, it is , designated as EPU are typically early in their characterization process prior to finalizing all electrical


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PDF TGP2101-EPU 34GHz 35GHz 36GHz 37GHz TGP2101-EPU
23204-116

Abstract: vme backplane
Text: Sysfail ACFAIL + 5V GND IPMB Connector, VME64x Backplanes only According to ANSI / VITA 38-2003, System Management Specification. Vsm is connected to + 5V Standby 1 SMB_SCL 2 GND 3 SMB_SDA 4 + 5V , defines a set of features that can be added to VME and VME64 boards, backplanes and subracks. These , VME64x boards and ANSI/VITA 38 finally adds system management features to the VME64x environment , Industry Trade Agreements to the IEC, the VITA Standards Organization provides its members with the


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PDF VME64x 32-bit VME64 VME32 /-12V; D-75334 23204-116 vme backplane
2003 - TGP2100-EPU

Abstract: No abstract text available
Text: designated as EPU are typically early in their characterization process prior to finalizing all electrical and process specifications. Specifications are subject to change without notice. TriQuint , Temperature 0 150 C 3/ 0 320 C 0 -65 to 150 C 1/ These ratings represent the maximum , temperature will directly affect the device median time to failure (MTTF). For maximum life, it is , designated as EPU are typically early in their characterization process prior to finalizing all electrical


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PDF TGP2100-EPU 28GHz 29GHz 30GHz 31GHz 32GHz TGP2100-EPU
2002 - TSOP44 Package

Abstract: ST m27c512 m27c1001 plcc32 SO32 ST M27C256B M27C4002 Atmel 642 PLCC32 package EPROM m27c2001 m27c4001 CROSS REFERENCE
Text: 5V 5V 5V 5V 5V 3V 3V 5V 5V 3V 3V Cross Reference: ATMEL to ST Size 2Mb Org. x16 , Company role of world leader in EPROMs. How to use the cross reference guide This Cross Reference guide is intended as a tool to help you to find out the ST EPROM products most compatible with the EPROM devices offered by the competition on the market. This guide is very easy to use: you just have to choose the competitor part number, according to the memory size, the pin organization and the package of


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PDF CREPROM/0202 TSOP44 Package ST m27c512 m27c1001 plcc32 SO32 ST M27C256B M27C4002 Atmel 642 PLCC32 package EPROM m27c2001 m27c4001 CROSS REFERENCE
2004 - TGP2102-EPU

Abstract: No abstract text available
Text: MMIC design using TriQuint's proven 0.25µm power pHEMT process to support a variety of Ka-Band , requires a minimum of off-chip components and operates with a - 5V control voltage. Each device is RF tested on-wafer to ensure performance compliance. The device is available in chip form. RMS , early in their characterization process prior to finalizing all electrical and process specifications. Specifications are subject to change without notice. TriQuint Semiconductor Texas Phone : (972)994-8465 Fax


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PDF TGP2102-EPU 35GHz 41mm2 TGP2102-EPU
100ria

Abstract: 25V6K RN5305 2N4494
Text: -92 (EBC) TO -92 (EBC) TO -92 (EBC) 20V B V ,· flFE a °x.®VCB Min Max @ Ic: & Min MB 120 2mA 5V 100nA 25V 60 , ) TO -92 30V (EBC) TO -92 25V (EBC) (CES) 5V 5V 5V 5V 5V 5V 5V 5V 5V 5V 5V 5V 1.0V 1.5V 1.5V 1.5V 1.5V , i Min. Max ® VCB Min Max @ 6 V 6 V 6 V 6 V 6 V 5 V 5 V 4 V 4 V 4.5V 4, 5V 5 4.5V 4.5V 5 V 5 V 5 V 4 V 4 V 3 V 6 V 3 V 6 5V 4 V Cob » Vm (sat) & Vu Vcf(sat) Max. & Max @ lc Max 1.0V 1.0V 1 OV 1.0V 1.0V 10mA 10mA 10mA 10mA 10mA 1? pF 0 2V 0.8V 1 OmA 12 pF 3 5pF 3 5pF 0 5V 0 5V 0.25V 0 7V 0 7V 0 125V 0 5V


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PDF 2N3707 MPS3707 2N3708 MPS3708 2N3709 MPS3709 2N3701 MPS3710 2N3711 MPS3711 100ria 25V6K RN5305 2N4494
2006 - TSOP-20

Abstract: package TSOP20 tsop20 M27C4001 PDIP32 TSOP32 ST M27C256B 8X14 MX27C512 M27C512
Text: B = PDIP F = FDIPW C = PLCC at 5V K = PLCC at 2.7 to 3.6V N = TSOP M = SO S = SDIP Some of , scheme M X 2 7 8 0 0 0 A L Voltage range L = 2.7 to 3.6V C = 5V Density 256 = 256Kb (x8 , believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the , patent rights of STMicroelectronics. Specifications mentioned in this publication are subject to change , Introduction Long-term commitment STMicroelectronics is commited to supporting the EPROM market in the


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PDF CREPROM0206 TSOP-20 package TSOP20 tsop20 M27C4001 PDIP32 TSOP32 ST M27C256B 8X14 MX27C512 M27C512
1995 - Sw 2604

Abstract: sem 3040 A 2611 data sheet 1kx8 static ram 54/74 TTL series 16kx8 static ram ttl 6116 sram 64Kx8 dual-port CMOS RAM cmos SRAM 35ns 128k X 8 dip 6168 sc
Text: 64-bit CPUs 3035 79S460 R4600 Eval brd C 5V Each product is hyperlinked to its , 7ns C 5V 64Kx4 Now 256K ECL IO RAMs 2780 10504 Each product is hyperlinked to , SO,P C,M 5V -15/48 Now 3V to 5V Translators 2555 54/74FCT164245T 16-Bit 5V to 3.3V , Drain) 12ns P,SO C,M 5V -15/64 Now bal drive Each product is hyperlinked to its , Q,SO,P C,M 5V -15/12 bal drive Now Now Each product is hyperlinked to its


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PDF 32-bit 33MHz 160PQFP 79R3715 R30xx R3041 79S341 79S381 Sw 2604 sem 3040 A 2611 data sheet 1kx8 static ram 54/74 TTL series 16kx8 static ram ttl 6116 sram 64Kx8 dual-port CMOS RAM cmos SRAM 35ns 128k X 8 dip 6168 sc
2005 - x-band mmic phase

Abstract: No abstract text available
Text: TGP2103 requires a minimum of offchip components and operates with a 5V control voltage. Each device is RF tested on-wafer to ensure performance compliance. The device is available in chip form. Lead-Free and , characterization process prior to finalizing all electrical specifications. Specifications are subject to change , Dissipation Operating Channel Temperature Mounting Temperature (30 Seconds) Storage Temperature Value -8V to 0V 1 mA 20 dBm 0.1 W 150 C 320 C -65 to 150 0C 0 0 Notes 1/ 2/ 1/ 2/ 1/ 2/ 1/ 2/ 3/ These


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PDF TGP2103 31mm2 TGP2103 x-band mmic phase
2005 - 23204-116

Abstract: SCHROFF "VME Backplane" MTBF schroff power supply VME64X* by vita schroff power supply vme vme 3u board standards automatic daisy chain VME 69001-106 96 pin vme DIN connector
Text: According to ANSI / VITA 38-2003, System Management Specification. Vsm is connected to + 5V Standby 1 2 , defines a set of features that can be added to VME and VME64 boards, backplanes and subracks. These , VME64x boards and ANSI/VITA 38 finally adds system management features to the VME64x environment , Industry Trade Agreements to the IEC, the VITA Standards Organization provides its members with the ability to develop and to promote open technology standards. VME / VME64x Backplanes J1 Backplane


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PDF VME64x 32-bit VME64 VME32 /-12V; D-75334 23204-116 SCHROFF "VME Backplane" MTBF schroff power supply VME64X* by vita schroff power supply vme vme 3u board standards automatic daisy chain VME 69001-106 96 pin vme DIN connector
2005 - 3-bit magnitude comparator

Abstract: 3.3v to 5v buffer latch ECL binary Counter MC100E175 MC100E150 MC100EL35
Text: Translator, 5V Differential PECL to TTL Translator, 5V Dual LVTTL/LVCMOS to Differential LVPECL Translator, 3.3V Dual TTL to Differential PECL Translator, 5V Dual Differential LVPECL to LVTTL Translator, 3.3V Dual Differential PECL to TTL Translator, 5V TTL to Differential ECL Translator, 5V Differential - 5V ECL to TTL Translator TTL to Diff PECL and Differential PECL to TTL Translator, 5V Triple ECL Input to PECL Output Translator, -3.3V/- 5V Triple ECL Input to LVPECL Output Translator, -3.3V/- 5V Triple LVPECL


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PDF MC10E101, MC100E101 MC10EL01, MC100EL01 MC100LVEL01 MC10EL04, MC100EL04 MC10EL05, MC100EL05 MC100LVEL05 3-bit magnitude comparator 3.3v to 5v buffer latch ECL binary Counter MC100E175 MC100E150 MC100EL35
2004 - Not Available

Abstract: No abstract text available
Text: are typically early in their characterization process prior to finalizing all electrical and process specifications. Specifications are subject to change without notice. TriQuint Semiconductor Texas Phone : (972 , Mounting Temperature (30 Seconds) Storage Temperature Value 0 - +8 V 1 mA 20 dBm 0.1 W 150 C 320 0C -65 to , affect the device median time to failure (MTTF). For maximum life, it is recommended that junction , early in their characterization process prior to finalizing all electrical and process specifications


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PDF TGP2100-EPU 28GHz 29GHz 30GHz 31GHz 32GHz
TP8350-5.0V

Abstract: LM2950TA-5.0V CM2576-5.0V LM2937L-5.0V CYT8117T15-LF-1.5V TGP2103 PT6302N-5.0V L1117DG-2.5V x-band mmic phase v562
Text: and operates with a 5V control voltage. Each device is RF tested on-wafer to ensure performance , Frequency (GHz) Note: This device is early in the characterization process prior to finalizing all electrical specifications. Specifications are subject to change without notice. 1 TriQuint Semiconductor , Notes VC Control Voltage Range -8V to 0V 1/ 2/ IC Control Supply Current 1 mA 1 , ) 320 C TSTG 3/ 0 -65 to 150 0C Storage Temperature 1/ These ratings represent the


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PDF TGP2103 31mm2 TGP2103 TP8350-5.0V LM2950TA-5.0V CM2576-5.0V LM2937L-5.0V CYT8117T15-LF-1.5V PT6302N-5.0V L1117DG-2.5V x-band mmic phase v562
1999 - LTC1199

Abstract: LTC1274 LTC1273 LTC1272 LTC1198 LTC1196 LTC1099 LTC1098L LTC1098 LTC1591-1
Text: Single 8-Bit LTC1096 5V , Micropower, SO-8 LTC1096L 3V, Micropower, SO-8 LTC1196 3V to 5V , 1Msps, SO , 5V , 2-Ch, Micropower, SO-8 LTC1098L 3V, 2-Ch Micropower, SO-8 LTC1198 3V to 5V , 2-Ch 750ksps, SO , Products) 8-Bit LTC1099 5V , 400ksps LTC1406 5V , 20Msps 12-Bit LTC1272 5V , 250ksps, 0V to 5V Input LTC1273 5V , 300ksps, 0V to 5V Input LTC1274 5V , 100ksps,10mW LTC1275 ± 5V , 300ksps, ±2.5V Input LTC1276 , , 500ksps, 75mW LTC1279 5V , 600ksps, 60mW LTC1282 3V or ± 3V, 140ksps, 0V to 2.5V or ±1.25V Inputs


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PDF LTC1096 LTC1096L LTC1196 10-Bit LTC1092 38ksps LTC1197 500ksps, LTC1197L 250ksps, LTC1199 LTC1274 LTC1273 LTC1272 LTC1198 LTC1099 LTC1098L LTC1098 LTC1591-1
2004 - Fairchild part numbering

Abstract: m27c512 equivalent 401 PDIP40 tsop20 package TSOP20 AM27X64 TSOP44 M27C512 AMD part HT27C512 AM27C512
Text: 2 7 EPROM family V X X X X S S Supply voltage C = 5V W = 2.7 to 3.6V Memory size , PLCC at 5V K = PLCC at 2.7 to 3.6V N = TSOP M = SO S = SDIP x8 4Mb Package PDIP28 PDIP28 , scheme M X 2 7 X X X X X Y Voltage range L = 2.7 to 3.6V C = 5V Density 256 = 256Kb (x8 , LV = 3.0 to 3.6V C = 5V Density 256(R/A) = 256Kb (x8) 512(R/A) = 512Kb (x8) 516 = 512Kb (x16 , 2 7 Y X X X X Voltage range L = 3.0 to 3.6V E = 4.5 to 5V C = 5V Density 512 = 512Kb


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PDF CREPROM/0603 Fairchild part numbering m27c512 equivalent 401 PDIP40 tsop20 package TSOP20 AM27X64 TSOP44 M27C512 AMD part HT27C512 AM27C512
2000 - AM685

Abstract: 5v input 3v output LT1017 equivalent LT1719 equivalent LT1719 LM111 LT1016 lt1016 equivalent LT1394 LT1671
Text: LT1017 LT1720, UltraFast, Rail-Rail, Ground-Sensing, 3V/ 5V LTC1040, Micropower, Common Mode to Both , , Ground-Sensing, 3V/ 5V , Dual LT1721, UltraFast, Ground Sensing Rail-Rail, Hysteresis, Quad LT1394 , , 40mA Output, Dual LTC1841, 2V to 11V Supplies Ground-Sensing, Hysteresis, Dual LTC1842/43, Built-in , , Common Mode to Both Rails, Dual NEW! 6.5ns 6.5ns Micropower NEW! 9ns 14ns 14ns 16ns , Output LTC1841, 2V to 11V Supply Range, Ground-Sensing, adj. Hysteresis LTC1842/43, Built-in Reference


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PDF LT1719, LT1720, LT1721, LT1394, LT1015, LT1016, LT1116, LT1671, LT1011/A, LM111, AM685 5v input 3v output LT1017 equivalent LT1719 equivalent LT1719 LM111 LT1016 lt1016 equivalent LT1394 LT1671
1997 - M48Z32Y-100PC1

Abstract: m48z32y M48Z32-85PC1 PCDIP28 M48T08-150PC1 MK41T56N00 M48T02-120PC1 m48t08-150 M48Z128Y-120PM1 105v
Text: 5V + 10/-5% 5V + 10/-5% 5V ± 10% 5V + 10/-5% 5V ± 10% 5V + 10/-5% 5V ± 10% 5V + 10/-5% 5V ± 10% 5V + 10/-5% 5V ± 10% 5V + 10/-5% 5V ± 10% 5V + 10/-5% 5V + 10/-5% 5V ± 10% 5V ± 10% 5V ± 10% 5V ± 10% 5V ± 10% 5V ± 10% 5V + 10/-5% 5V ± 10% 5V + 10/-5% 5V ± 10% 5V + 10/-5% 5V ± 10% 5V + 10/-5% 5V ± 10% 5V ± 10% 5V + 10/-5% 5V ± 10% 5V + 10/-5% 5V ± 10% 5V + 10/-5% 5V ± 10% 5V + 10/-5% 5V ± 10% Feature , Battery Life 5 Year Battery Life 5 Year Battery Life 5 Year Battery Life Temperature Range (°C) 0 to


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PDF M48Z02-120PC1 M48Z02-150PC1 M48Z12-150PC1 M48Z02-150PC6 M48Z12-150PC6 M48Z02-200PC1 M48Z12-200PC1 M48Z02-200PC6 M48Z12-200PC6 M48Z58-70PC1 M48Z32Y-100PC1 m48z32y M48Z32-85PC1 PCDIP28 M48T08-150PC1 MK41T56N00 M48T02-120PC1 m48t08-150 M48Z128Y-120PM1 105v
2000 - THERMISTORS SCK 055

Abstract: THERMISTOR ntc SCK 055 THERMISTORS SCK 053 thermistor SCK 085 LT1885 INFRARED THERMISTORS SCK 085 AC voltmeter pic ntc linearization serial parallel LT1258 0S36-01
Text: Transmitters: 0V to 5V or 0V to 10V Actuators: 4mA to 20mA 0mA to 20mA Str , LTC and LT are registered , R A2 + VOLTAGE REFERENCE PAGE 4 ± 2.5V ± 10V 0V TO 5V 0V TO 10V + S3 S5 ­ , ) 150 250 30 2 VOLTAGE OUT: BIPOLAR: ± 5V , ±10V UNIPOLAR: 0V TO 5V , 0V TO 10V Industrial , to 5V , 0V to 4V ­ Bipolar: ±10V, ± 5V , ±3.33V Low Power, Automatic Shutdown Between Conversions , 5V 5V 3V 3 Int. Ref Input Span Configurable to ±10V 0V to 4.096V/±2.048V 0V to 4.096V


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PDF 100bps 16-bit 1-800-4-LINEAR THERMISTORS SCK 055 THERMISTOR ntc SCK 055 THERMISTORS SCK 053 thermistor SCK 085 LT1885 INFRARED THERMISTORS SCK 085 AC voltmeter pic ntc linearization serial parallel LT1258 0S36-01
fbc547

Abstract: BC347 BC348B 547A BC348 BC347A BC348A 348B 238C BC 237b
Text: 1kHz TO -92Ft BC 238A 375mW 100mA 30V 20V 5V 110/ 220 <§> 5V ® 2.00mA 0.25V g 10/0.5mA 4.5p F 150MHz TO -92F + BC 238 B 375mW 100mA 30 V 20V 5V 200/ 450 @ 5V ® 2.00mA 0.25V TO -92Ft BC 238C 375mW 100mA 30V 20V 5V 420/ 800 @> 5 V @ 2.00mA , > 5V @ 2.00mA 0.25V <§ 10/0.5mA 4.5PF 150MHz @ 10.0mA 4dB 1kHz TO -92Ff BC 239 B 375mW 100mA 30V 20V 5V 220/ 450 <§> 5V @> 2.00mA 0.25V 10/0.5mA 4.5pF 150MHz @ 10.0mA 4dB 1kHz TO -92Ff BC 239C 375mW


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PDF T0-I06 375mW 100mA 150MHz O-92Ft 375mW fbc547 BC347 BC348B 547A BC348 BC347A BC348A 348B 238C BC 237b
qn2222

Abstract: pe-6197 PE6197 eprom 92112 Pulse Engineering pe-6197 VICTOREEN resistor 48V to 12V buck boost converter flyback converter 12v to 18v p50n05 r-QN2222
Text: 12V) Figure 5 6 AN29, Page 9 200mA Output Converter (1, 5V to 5V ) Figure6 7 AN29, Page15 Up Converter (6V to 15V) Figure 7 7 AN8, Page9/LT1013DS Regulated Up Converter ( 5V to 10V) Figure8 8 LT1018DS Boost Converter (1.5V to 5V ) Figure 9 8 AN15, Page7/LT1018DS Up Converter (1.5V to 5V ) Figúrelo 8 LM10DS Single Cell Up Converter (1, 5V to 5V ) Figuren 8 AN8, Page 8 The Low Quiescent Current Loop Applied to a Buck Converter (8V-16V to 5V ) Figure 18 14 AN29, Page 12 Low Power Switching Regulator (9V


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PDF CM55-T13 PE-52645 5V-35V 2N3906 2N390 100/tF LT317AH LT1072CN8 LT1004-2 2N2222 qn2222 pe-6197 PE6197 eprom 92112 Pulse Engineering pe-6197 VICTOREEN resistor 48V to 12V buck boost converter flyback converter 12v to 18v p50n05 r-QN2222
BC207B

Abstract: bc208b BC170C BC208 BC207 BC208C BC209 bc209b BC170A bc 209
Text: > 2.00mA 0.25V @ 1 0/0.5mA 4.5pF 85MHz £ 10.0mA 10dB 1kHz TO -92B BC 168 A 375mW 100mA 30V 20V 5V 120/ 220 @ 5V @> 2. OOmA 0.25 V @> 10/0.5mA 4.5pF 85MHz S 10.0mA 10dB 1kHz TO -92B BC 168B 375mW 100mA 30V 20V 5V 180/ 460 @ 5v e> 2.00mA 0.25 V ®> 10/0.5m A 4.5pF 85MHz <§ 10.0mA 10dB 1kHz TO -92B BC 168 C 375mW 100mA 30V 20V 5V 380/ 800 @ 5V @> 2. OOmA 0.25V @> 10/0.5m A 4.5pF 85MHz 6 10.0mA 10dB 1kHz TO , 1kHz TO -92B BC 169B 375mW 50mA 30V 20V 5V 180/ 400 @ 5V ®) 2.OOmA 0.25 V @> 10/0.5mA 4.5pF 85MHz Â


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PDF 375mW 100mA 85MHz O-92B 85MHz BC207B bc208b BC170C BC208 BC207 BC208C BC209 bc209b BC170A bc 209
2n 2222A 3904

Abstract: No abstract text available
Text: ) Max. 160MHz Typ. B V qbo Min. BV ceo Min. 2N 2925 TO -92 (ECB) 25V 25V 5V , 100nA 20V 180 660 1.0mA 5V 1.0V 10mA 2N 3860 TO -92 (ECB) 30V 30V 4V , 5V 0.3V 0.8V 10mA 4pF 50MHz 0.5mA 2N 5172 M PSS172 TO -92 (ECB) (EBC , « A 1.0mA 10mA 5V 5V 5V 0.7V 0.85V 2 N 5232A TO -92 (ECB) 70V 50V 5V 100nA 50V 250 500 2mA 5V 0.125V M PS8097 TO -92 (EBC) 60V 40V 6V


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PDF DGG7423 160MHz 100nA 2N3711 MPS3711 90MHz MPS-A65 100nA 2n 2222A 3904
Not Available

Abstract: No abstract text available
Text: a 5V control voltage. Each device is RF tested on-wafer to ensure performance compliance. The , pHEMT process to support a variety of Ka-Band phased array applications including military radar , 27 29 31 State Note: Datasheet is subject to change without notice. TriQuint Semiconductor , Control Voltage Range -8V to 0V 1/ 2/ ID Control Supply Current 1 mA 1/ 2/ PIN , C -65 to 150 0C Storage Temperature 1/ These ratings represent the maximum operable values


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PDF TGP2102 35GHz TGP2102
Supplyframe Tracking Pixel