The Datasheet Archive

Top Results (6)

Part Manufacturer Description Datasheet Download Buy Part
LT1010CDD#TR Linear Technology LT1010 - Fast 150mA Power Buffer; Package: DFN; Pins: 8; Temperature Range: 0°C to 70°C
LT1010CDD Linear Technology LT1010 - Fast 150mA Power Buffer; Package: DFN; Pins: 8; Temperature Range: 0°C to 70°C
LT1010CDD#PBF Linear Technology LT1010 - Fast 150mA Power Buffer; Package: DFN; Pins: 8; Temperature Range: 0°C to 70°C
LT1010CDD#TRPBF Linear Technology LT1010 - Fast 150mA Power Buffer; Package: DFN; Pins: 8; Temperature Range: 0°C to 70°C
LT1010CT#PBF Linear Technology LT1010 - Fast 150mA Power Buffer; Package: TO-220; Pins: 5; Temperature Range: 0°C to 70°C
LT1010CN8 Linear Technology LT1010 - Fast 150mA Power Buffer; Package: PDIP; Pins: 8; Temperature Range: 0°C to 70°C
SF Impression Pixel

Search Stock (43)

  You can filter table by choosing multiple options from dropdownShowing 43 results of 43
Part Manufacturer Supplier Stock Best Price Price Each Buy Part
HL-T1010F Panasonic Electronic Components Allied Electronics & Automation - $807.49 $807.49
HLT-1010-G-H Samtec Inc Sager - $23.82 $23.82
HLT-1010-G-H Samtec Inc Avnet - $29.89 $23.19
HLT-1010-G-R Samtec Inc Avnet - $31.09 $24.19
HLT-1010-G-R Samtec Inc Sager - $24.81 $24.81
HLT-1010-G-T Samtec Inc Avnet - $28.79 $22.39
HLT-1010-G-T Samtec Inc Sager - $22.98 $22.98
HLT-1010-T-H Samtec Inc Sager - $12.56 $12.56
HLT-1010-T-H Samtec Inc Avnet - $15.69 $12.19
HLT-1010-T-R Samtec Inc Sager - $12.90 $12.90
HLT-1010-T-R Samtec Inc Avnet - $16.19 $12.59
HLT-1010-T-T Samtec Inc Sager - $11.98 $11.98
HLT-1010-T-T Samtec Inc Avnet - $14.99 $11.69
LT1010CDD#PBF Linear Technology element14 Asia-Pacific - $7.73 $4.01
LT1010CDD#PBF Linear Technology Chip1Stop 726 $4.90 $2.58
LT1010CDD#PBF Linear Technology Chip1Stop 885 $4.65 $3.24
LT1010CDD#PBF Linear Technology RS Components 93 £3.62 £3.42
LT1010CK Linear Technology Bristol Electronics 9 - -
LT1010CK Linear Technology Bristol Electronics 121 - -
LT1010CN8#PBF Analog Devices Inc TME Electronic Components - $5.82 $3.79
LT1010CN8#PBF Linear Technology Chip1Stop 648 $4.71 $3.29
LT1010CN8#PBF Linear Technology Farnell element14 - £4.12 £2.31
LT1010CN8#PBF Linear Technology Chip1Stop 68 $5.09 $3.16
LT1010CN8#PBF Linear Technology RS Components 226 £4.69 £3.91
LT1010CN8#PBF Linear Technology element14 Asia-Pacific 39 $7.73 $4.03
LT1010CN8#PBF Linear Technology RS Components 147 £5.47 £3.91
LT1010CN8PBF Linear Technology ComS.I.T. 71 - -
LT1010CN8PBF Linear Technology Schukat electronic 85 €4.80 €2.55
LT1010CT Linear Technology New Advantage Corporation 5 - -
LT1010CT#06PBF Linear Technology Bristol Electronics 35 - -
LT1010CT#06PBF Linear Technology element14 Asia-Pacific - $8.87 $4.58
LT1010CT#06PBF Linear Technology Chip1Stop 542 $5.33 $3.72
LT1010CT#PBF Linear Technology RS Components 30 £3.75 £3.75
LT1010CT#PBF Linear Technology element14 Asia-Pacific - $8.86 $4.62
LT1010CT#PBF Linear Technology Farnell element14 - £4.73 £2.72
LT1010CT#PBF Linear Technology Chip1Stop 50 $5.76 $3.62
LT1010CT#PBF Analog Devices Inc TME Electronic Components 48 $5.40 $3.92
LT1010CT#PBF Linear Technology RS Components 72 £4.39 £3.75
LT1010CTPBF Linear Technology Schukat electronic 59 €5.40 €2.90
LT1010CTT#PBF Linear Technology Bristol Electronics 50 - -
LT1010MH/883 Linear Technology Bristol Electronics 61 - -
SLT-10-10-P-A Festo Allied Electronics & Automation - $736.64 $736.64
TCLT1010 Vishay Intertechnologies Avnet - $0.26 $0.23

No Results Found

LT1010 datasheet (29)

Part Manufacturer Description Type PDF
LT1010 Linear Technology Fast ±150mA Power Buffer Original PDF
LT1010 Linear Technology Fast 150mA Power Buffer Original PDF
LT1010 Linear Technology A Precision Wideband Current Probe for LCD Backlight Measurement Original PDF
LT1010 Linear Technology Programming Pulse Generators for Flash Memories Scan PDF
LT1010 Linear Technology Fast +150ma Power Buffer Scan PDF
LT1010CDD Linear Technology Fast ±150mA Power Buffer Original PDF
LT1010CDD#PBF Linear Technology Fast ±150mA Power Buffer; Package: DFN; No of Pins: 8; Temperature Range: 0°C to +70°C Original PDF
LT1010CDD#TR Linear Technology Fast ±150mA Power Buffer; Package: DFN; No of Pins: 8; Temperature Range: 0°C to +70°C Original PDF
LT1010CDD#TRPBF Linear Technology Fast ±150mA Power Buffer; Package: DFN; No of Pins: 8; Temperature Range: 0°C to +70°C Original PDF
LT1010CH Linear Technology Fast ± 150mA Power Buffer Original PDF
LT1010CH Linear Technology Fast ±150mA Power Buffer Scan PDF
LT1010CK Linear Technology Fast ± 150mA Power Buffer Original PDF
LT1010CK Linear Technology Fast ±150mA Power Buffer Scan PDF
LT1010CN8 Linear Technology Fast ±150mA Power Buffer; Package: PDIP; No of Pins: 8; Temperature Range: 0°C to +70°C Original PDF
LT1010CN8 Linear Technology Buffer, Amplifier Original PDF
LT1010CN8 Linear Technology Fast ±150mA Power Buffer Scan PDF
LT1010CN8#PBF Linear Technology Fast ±150mA Power Buffer; Package: PDIP; No of Pins: 8; Temperature Range: 0°C to +70°C Original PDF
LT1010CNB Linear Technology Fast ± 150mA Power Buffer Original PDF
LT1010CT Linear Technology Fast ± 150mA Power Buffer Original PDF
LT1010CT Linear Technology Fast ±150mA Power Buffer; Package: TO-220; No of Pins: 5; Temperature Range: 0°C to +70°C Original PDF

LT1010 Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
current buffer 150ma

Abstract: SIMPLE 40w inverter circuit TO-39 CASE connection scheme LT1010 TO-5 LT1010MK LT1010MH LT1010CT LT1010CN8 ic ca 810 audio amp LT1010CH
Text: ) LT1010CK .4.0W , ).±40mA Operating Junction Temperature LT1010M.- 55°C to 150°C LT1010C.0°Cto , sense the LT1010's supply current, with the grounded 1000 resistor supplying a load for the LT1010. The


OCR Scan
PDF 150mA 20MHz LT1010 BA/GP0891 current buffer 150ma SIMPLE 40w inverter circuit TO-39 CASE connection scheme LT1010 TO-5 LT1010MK LT1010MH LT1010CT LT1010CN8 ic ca 810 audio amp LT1010CH
U1010

Abstract: Widlar
Text: °C Continuous Power Dissipation (Note 1) LT1010C. Cto125°C LT1010MK. , 4.0W LT1010MH. 3.1W LT1010CH. , sense the LT1010's supply current, with the grounded 10012 resistor supplying a load for the LT1010. The , LT1010MK LT1010CK O FRONT VIEW 5 4 3 OUTPUT 3-<-BIAS V - (TAB) ORDER PART NUMBER LT1010CT 2 1 0 , BOTTOM VIEW v+ LT1010MH LT1010CH OUTPUT TOP VIEW v + |7 · BIAS [ T out[T LT1010CN8 T


OCR Scan
PDF 150mA LT1010 LT1010M LT1010C O-220 U1010 Widlar
1986 - 2n3866

Abstract: 2N3866 application note Ferronics 21-110J 2n3906 npn LT1010 LT318A lt1028 LT1012 AN21 Godzilla
Text: LTC1052 at 5V, with gain about 0.95. The LT1010's 15MHz bandwidth and 100V/s slew rate, combined with , and Q2 form a differential stage which single-ends into the LT1010. The circuit delivers 1VP-P into , Figure 12 substitutes discrete elements for Figure 11's LT1010s. Although this arrangement is , source load setting the drain-source channel current. The LT1010 buffer provides output drive , range transistors 5V 5V TO POINT A INPUT 1.5k 100 Q1 2N5486 A B A2 LT1010


Original
PDF LT1022 LT1010 an21f AN21-12 2n3866 2N3866 application note Ferronics 21-110J 2n3906 npn LT1010 LT318A lt1028 LT1012 AN21 Godzilla
1984 - TEMPERATURE DEPENDENT DC FAN SPEED CONTROL USING

Abstract: op amps lm307 Search OP AMP for Piezoelectric film 2N4393 piezo "charge amp" LT1010 LT318A 2N2222 application note emitter follower 2N5486 LT1008
Text: current (Trace B) from the LT1010. Adjustment of the RF-CF time constant would allow improved damping , ends into the LT1010. The capacitively terminated feedback divider gives the circuit a DC gain of 1 , combine the LT1010's load handling capability with a fast, discrete gain stage. Q1 and Q2 form a , sample-hold input). The LT1010's ability to drive difficult loads is exploited in Figure 13's circuit , directions, with clean transitions through zero. The LT1010's thermal protection is particularly useful in


Original
PDF LT1010 TEMPERATURE DEPENDENT DC FAN SPEED CONTROL USING op amps lm307 Search OP AMP for Piezoelectric film 2N4393 piezo "charge amp" LT318A 2N2222 application note emitter follower 2N5486 LT1008
1991 - Not Available

Abstract: No abstract text available
Text: LT1010CDD#TRPBF LBWZ 8-Lead (3mm × 3mm) Plastic DFN 0°C to 100°C LT1010CN8#PBF LT1010CN8#TRPBF LTC1010CN8 8-Lead PDIP 0°C to 100°C LT1010CT#PBF LT1010CT#TRPBF LTC1010CT 5-Lead Plastic , TEMPERATURE RANGE LT1010CDD LT1010CDD#TR LBWZ 8-Lead (3mm × 3mm) Plastic DFN 0°C to 100°C LT1010CN8 LT1010CN8#TR LTC1010CN8 8-Lead PDIP 0°C to 100°C LT1010CT LT1010CT#TR , ±40mA Junction Temperature Range LT1010C. 0°C to 125°C Storage


Original
PDF LT1010 150mA 20MHz O-220 LT1206 250mA, 60MHz LT1210 35MHz
1991 - hp2810

Abstract: LT1010 2 way video splitter circuit drawing LT1010CDD MJE3055 equivalent LM334 equivalent transistor LT1056CN8 LT1010CT LM334 lt1056 die
Text: PART NUMBER LT1010CT ORDER PART NUMBER LT1010CDD DD PART MARKING LBWZ T PACKAGE 5 , LT1010. Otherwise, it has zero offset voltage, bias current and output resistance. Its output also , The 33 resistors sense the LT1010's supply current with the grounded 100 resistor supplying a load for the LT1010. The voltage drop across the 33 resistors biases Q1 and Q2. Another 100 value closes , LT1010 Fast ±150mA Power Buffer U FEATURES DESCRIPTIO The LT®1010 is a fast


Original
PDF LT1010 150mA 20MHz O-220 LT1206 250mA, 60MHz LT1210 35MHz hp2810 LT1010 2 way video splitter circuit drawing LT1010CDD MJE3055 equivalent LM334 equivalent transistor LT1056CN8 LT1010CT LM334 lt1056 die
1991 - LT1210 as buffer

Abstract: 4mhz 8mhz 16mhz 8pin 2 way video splitter circuit drawing LT1010 application notes LT1010CT LT1010CDD LT1010 LM334 HP2810 Transistor 2N3866
Text: LT1010's supply current with the grounded 100 resistor supplying a load for the LT1010. The voltage drop , = 125°C, JC = 25°C/W ORDER PART NUMBER LT1010CN8 ORDER PART NUMBER LT1010CT ORDER PART , buffer with the unloaded gain specified for the LT1010. Otherwise, it has zero offset voltage, bias , LT1010 Fast ±150mA Power Buffer U FEATURES DESCRIPTIO The LT®1010 is a fast , 2 R3 1k 0.4 C2 22pF R6 100 IN LT1010CT R4 10k V BOOST OUT ­ V


Original
PDF LT1010 150mA 20MHz O-220 LT1206 250mA, 60MHz LT1210 35MHz LT1210 as buffer 4mhz 8mhz 16mhz 8pin 2 way video splitter circuit drawing LT1010 application notes LT1010CT LT1010CDD LT1010 LM334 HP2810 Transistor 2N3866
1991 - hp2810

Abstract: LM163 HP2-810 MJE2955 power amplifier circuit MJE3055 equivalent LT1010CT LT1210 as buffer transistor MJE3055 LT1010 Transistor 2N3866
Text: 22µF B A2 LT1010 100 100 33 A ­ The 33 resistors sense the LT1010's supply current with the grounded 100 resistor supplying a load for the LT1010. The voltage drop across the 33 , LT1010. Otherwise, it has zero offset voltage, bias current and output resistance. Its output also , LT1010 Fast ±150mA Power Buffer U FEATURES s s s s s s s s DESCRIPTIO The LT , 2 ­ 4 R7 50 V+ 7 6 LT1056CN8 R3 1k 0.4 C2 22pF R6 100 IN LT1010CT


Original
PDF LT1010 150mA 20MHz O-220) LT1206 250mA, 60MHz LT1210 35MHz LT1795 hp2810 LM163 HP2-810 MJE2955 power amplifier circuit MJE3055 equivalent LT1010CT LT1210 as buffer transistor MJE3055 LT1010 Transistor 2N3866
1991 - HP2810

Abstract: ltc1010 ltc1010ct LT1010 application notes MJE3055 equivalent 2 way video splitter circuit drawing LT1010CT LBWZ LTC1010CN8 LT1010
Text: LT1010CDD#TRPBF LBWZ 8-Lead (3mm × 3mm) Plastic DFN 0°C to 100°C LT1010CN8#PBF LT1010CN8#TRPBF LTC1010CN8 8-Lead PDIP 0°C to 100°C LT1010CT#PBF LT1010CT#TRPBF LTC1010CT 5-Lead Plastic TO , TEMPERATURE RANGE LT1010CDD LT1010CDD#TR LBWZ 8-Lead (3mm × 3mm) Plastic DFN 0°C to 100°C LT1010CN8 LT1010CN8#TR LTC1010CN8 8-Lead PDIP 0°C to 100°C LT1010CT LT1010CT#TR , ). ±40mA Operating Junction Temperature Range LT1010C.


Original
PDF LT1010 150mA 20MHz O-220 O-220 LT1206 250mA, 60MHz 00V/s, HP2810 ltc1010 ltc1010ct LT1010 application notes MJE3055 equivalent 2 way video splitter circuit drawing LT1010CT LBWZ LTC1010CN8 LT1010
1991 - LT1010 application notes

Abstract: 2 way video splitter circuit drawing 2 way video splitter circuit diagram 2 way video splitter circuit MJE2955 power amplifier circuit 2N3866 application MJE3055 equivalent
Text: ORDER INFORMATION LEAD FREE FINISH LT1010CDD#PBF LT1010CN8#PBF LT1010CT#PBF LEAD BASED FINISH LT1010CDD LT1010CN8 LT1010CT TAPE AND REEL LT1010CDD#TRPBF LT1010CN8#TRPBF LT1010CT#TRPBF TAPE AND REEL LT1010CDD#TR LT1010CN8#TR LT1010CT#TR PART MARKING LBWZ LTC1010CN8 LTC1010CT PART MARKING LBWZ LTC1010CN8 LTC1010CT PACKAGE , ). ±40mA Junction Temperature Range LT1010C. 0°C to , buffer with the unloaded gain specified for the LT1010. Otherwise, it has zero offset voltage, bias


Original
PDF LT1010 150mA O-220 LT1206 LT1210 LT1795 LT1886 250mA, 60MHz LT1010 application notes 2 way video splitter circuit drawing 2 way video splitter circuit diagram 2 way video splitter circuit MJE2955 power amplifier circuit 2N3866 application MJE3055 equivalent
LT1010

Abstract: op amp with command line line command op amp LT318A AN-44 thermistor op amp temperature controller circuit AC fan speed control schematic LT1008 IN4148 AN44
Text: requires substantial current (Trace B) from the LT1010. Adjustment of the Rf-Cf time constant would allow , combine the LT1010's load handling capability with a fast, discrete gain stage. 01 and Q2 form a differential stage which single-ends into the LT1010. The capacitively terminated feedback divider gives the , —Trace A is the sample-hold input). Figure 12 shows the LT1010's contribution to fast acquisition. The , : < 100ns to 1mV Aperture time: 16ns Motor Speed Control The LT1010's ability to drive difficult loads is


OCR Scan
PDF LT1010 150mA. 200pF op amp with command line line command op amp LT318A AN-44 thermistor op amp temperature controller circuit AC fan speed control schematic LT1008 IN4148 AN44
LT1010MH

Abstract: SIMPLE 40w inverter circuit Transistor 2N3866 LT1010CN8 LT1010CK LT1010CH LT1010 LH0002 transistor MJE3055 LT1010MK
Text: .± 150mA Continuous Power Dissipation (Note 1) LT1010CK .4.0W , resistors sense the LT1010's supply current, with the grounded 100Q resistor supplying a load for the LT1010. , Current (Note 2).±40mA Operating Junction Temperature


OCR Scan
PDF 20MHz 150mA LT1010 LT1010 4-LeadTO-39 LT1010M LT1010C 5-LeadTQ-220 LT1010MH SIMPLE 40w inverter circuit Transistor 2N3866 LT1010CN8 LT1010CK LT1010CH LH0002 transistor MJE3055 LT1010MK
t5188

Abstract: LT1010CH LT1010MK 2N38662 LT1010CN8 LT1010MH LT1010CT LT1010CK LT1010 LT1010 application notes
Text: .± 150mA Continuous Power Dissipation (Note 1) LT1010CK .4.0W , resistors sense the LT1010's supply current, with the grounded 100Q resistor supplying a load for the LT1010. , Current (Note 2).±40mA Operating Junction Temperature


OCR Scan
PDF 20MHz 150mA LT1010 LT1010 4-LeadTO-39 LT1010M LT1010C 5-LeadTQ-220 t5188 LT1010CH LT1010MK 2N38662 LT1010CN8 LT1010MH LT1010CT LT1010CK LT1010 application notes
2N3866 application note

Abstract: 2N3866 LT318A 1N4002 TRANSIC0IL-1125-115 LT1010 LT1009 LT1008 AC fan speed control schematic WF capacitor
Text: ), even though the large capacitance requires substantial current (Trace B) from the LT1010. Adjustment of , AC gain is required. Figure 6 shows how to combine the LT1010's load handling capability with a fast, discrete gain stage. Q1 and Q2 form a differential stage which single-ends into the LT1010. The , LT1010's contribution to fast acquisition. The circuit acquires a 10V signal in this photograph. Trace A is , The LT1010's ability to drive difficult loads is exploited in Figure 13's circuit. Here, the buffer


OCR Scan
PDF LT1010 200pF LT1Q10 10AD8 2N3866 application note 2N3866 LT318A 1N4002 TRANSIC0IL-1125-115 LT1009 LT1008 AC fan speed control schematic WF capacitor
2N5160

Abstract: "FET based feedback" gain control amplifier LT1028 LT1022 LT1012 LT1010 Godzilla Application Note 21 AN214 amplifier 2N3866
Text: Note 21 Figure 12 substitutes discrete elements for Figure 11's LT1010S. Although this arrangement is , channel current. The LT1010 buffer provides output drive capability for cables or whatever load is , adjustment allows the gain to be precisely set to unity. With the LT1010 output stage slew and full power , B show response with both output stages. The LT1010 is used in Figure 7A (Trace A = input, Trace B = , 10ns/DIV Figure 7A. Figure 6's Waveforms Using LT1010 Figure 7B. Figure 6's Waveforms Using Discrete


OCR Scan
PDF AN21-12 2N5160 "FET based feedback" gain control amplifier LT1028 LT1022 LT1012 LT1010 Godzilla Application Note 21 AN214 amplifier 2N3866
1997 - LT1257

Abstract: LT485 AN6752 OP227 "direct replacement" ltc1097 an6266 AN2544 AN6677 AN1523 LTC201 spice
Text: NA LTC1052, LT1010 Five Decade Kelvin-Varley Divider LT1008 DS 9 NA LT1008 , LT1115 Gain-of-Five, Noninverting Line Driver LTM I:1 12 1 LT1122, LT1010 High Preformance Transformer Coupled Microphone Preamp LT1115 DS 11 5 LT1115, LT1010 , LT1097 Low Noise DC Accurate ×10 Buffered Line Amplifier LT1115 DS 9 2 LT1115, LT1010 , LT1097 LTM , RIAA Phonograph Preamplifier (40dB/60dB Gain) LT1115 DS 1 NA LT1115, LT1010 AN52 15


Original
PDF DN134) LT1016, LT1097, LT1222 LT1166, LT1431 LT1172, LT1006 LT1013, LT1088, LT1257 LT485 AN6752 OP227 "direct replacement" ltc1097 an6266 AN2544 AN6677 AN1523 LTC201 spice
1999 - KELVIN-VARLEY DIVIDER

Abstract: hp3458a VDR-307 VARLEY Julie Research Labs jim Williams FLUKE 720A linear jim williams HP11053 seven wonders
Text: . 3 KVD 6 IN LT1010 OUT OUTPUT + KVD = ELECTRO SCIENTIFIC INDUSTRIES RV , OUT LT1010 0.1µF A + 2 ­ LTC1152 +V 3 MAIN KVD 6 IN LT1010 + , 2 10k KVD 10k ­ LTC1150 3 6 IN OUT LT1010 0.1µF A + 2 +V MAIN KVD 10k 3 ­ LTC1152 6 IN LT1010 + OUT OUTPUT 0.000000V TO


Original
PDF LTC2400 24-Bit DSOL11 KELVIN-VARLEY DIVIDER hp3458a VDR-307 VARLEY Julie Research Labs jim Williams FLUKE 720A linear jim williams HP11053 seven wonders
2N2369

Abstract: LF156 LM118 LT1010 LT118A 2 way video splitter circuit diagram inverter circuit dc to ac 2V to 100V transistor 1020
Text: . Photomicrograph of the LT1010. Die size is 50x82 mils. A photomicrograph of the LT1010 die is shown in figure 7 , complete schematic of the LT1010 buffer is given in figure 6. Component identification corresponds to the , LT1010 is designed so that ordinary junction diodes are effective even when the IC is much hotter than , sink current. BIAS R23 5 -WV— OUTPUT INPUT figure 6. Complete schematic of the LT1010 buffer , LT1010 buffer. The IC is supplied in three standard power packages: the solid kovar base TO-5 (TO


OCR Scan
PDF 20MHz Tcs125Â LT1010M LT1010C. 100mV T0-220 2N2369 LF156 LM118 LT1010 LT118A 2 way video splitter circuit diagram inverter circuit dc to ac 2V to 100V transistor 1020
1986 - pe-6197

Abstract: op amp transistor current booster circuit 74C04 linear an18 MJE305 1000v to 2000v vac inverter circuit SCR c106 PIN CONFIGURATION 2n5160 12BH7A LT318A
Text: resistors sense the LT1010's supply current, with the grounded 100 resistor supplying a load for the LT1010. The voltage drop across the 33 resistors biases Q1 and Q2. Another 100 value closes a local , output shown in Figure B2. The LT1010's 20MHz gain bandwidth introduces negligible loop delay, and , section, "The Oscillation Problem"). The LT1010 is particularly adept at driving large capacitive , alternative. All of these circuits will deliver 150mA of output current. The LT1010 supplies short-circuit


Original
PDF an18f AN18-16 pe-6197 op amp transistor current booster circuit 74C04 linear an18 MJE305 1000v to 2000v vac inverter circuit SCR c106 PIN CONFIGURATION 2n5160 12BH7A LT318A
CA3084

Abstract: LM 358 opamp PMI OP AMP MAX9698 CTS0032 lm 3906 motorola s200 Teledyne 1339 1339 teledyne CTS0033
Text: TECHNOLOGY LT1010 LT1010 LT1010 LT1010 LT1010 L T 10I0 LT1010 LT1016 LT1016 LT1078 LT118 LT318 LT685


OCR Scan
PDF EHA2400/EHA2400A EHA2405/EHA2405A EHA2500/EHA2502/EHA2505 EHA2510/EHA2512/EHA2515 EHA2520/EHA2522/EHA2525 EHA2539 EHA2540 EHA2600/EHA2602/EHA2605 EHA2620/EHA2622/EHA2625 EHAS190/EHAS195 CA3084 LM 358 opamp PMI OP AMP MAX9698 CTS0032 lm 3906 motorola s200 Teledyne 1339 1339 teledyne CTS0033
inverter circuit dc to ac 5V to 1000V

Abstract: 1000v to 2000v vac inverter circuit 12bh7a op amp current booster using transistors transformer inverter ips 12v 74C04 scr controlled servo amplifier 2N2219 transistor MJE3055 ltc1043
Text: it is stable for all load capacitance to over 0.3/*F. Figure 1C shows LT1010's used in a bridge type , . rrimm technology AN 18-1 Application Note 18 The 3312 resistors sense the LT1010's supply current, with the grounded 10012 resistor supplying a load for the LT1010. The voltage drop across the 33Q , LT1010 monolithic 150mA current booster placed within the feedback loop of a fast FET amplifier. At lower , . Often a bandwidth reduction is desirable to filter high frequency noise or unwanted signals. The LT1010


OCR Scan
PDF
1994 - LTC1049 equivalent

Abstract: LTC1150 equivalent LTC1049 LT1211 LT1178 LT1078 LT1077 LT1006 LT1012A LTC1152
Text: 50µV LT1006A LT1012 LT1024A LT1028A LT1077A 100V/µs See High Speed Amplifier Selection Card RS = 100 17nV/Hz LT1001 (All) LT1002 (All) LT1008 LT1012 (All) LT1113* LT1211/12 LT1213/14 LT1215/16 10V/µs 50V/µs LT1022 LT1010 LT1028 LT1122 LT1037 LT1215/16 LT1055 LT1056 , LTC1100 8 14 G = 10 +CMRR 4 LT1010 13 COMP OUT 2 ­VIN 6 V­ OUTPUT = ±10V INTO , 0.01% DUE TO LT1010 MINIMUM VOLTAGE ACROSS BRIDGE = 20mV MINIMUM SUPPLY VOLTAGE = 1.8V 11 +VIN


Original
PDF LT1006A LT1012 LT1024A LT1028A LT1077A 17nV/Hz LT1001 LT1002 LT1008 LTC1049 equivalent LTC1150 equivalent LTC1049 LT1211 LT1178 LT1078 LT1077 LT1006 LT1012A LTC1152
2n3866 sos

Abstract: No abstract text available
Text: _ LT1010 T ECHNO LO G Y FC A TU R 6 S 2 0 M H z Bandw idth 75VI/ js Slew Rate , -LEA D TO-39 M ETAL CAN (KOVAR BASE) N PACKAGE 8-LEAD PLASTIC DIP 2-86 um m LT1010 l C T R IC , Note 4, l0UT= ± 150mA · v bias LT1010M MIN M AX 20 -1 0 40 0 0 0 0.995 6 6 110 220 90 150 250 300 1.00 9 9 12 LT1010C M IN M AX 0 -2 0 20 0 0 0 0.995 5 5 150 220 100 250 500 800 1.00 10 10 12 U , °C, for the LT1010M and 0°C < T, < 125°C, Tc s100°C,fortheLT1010C.The · denotes the specifications that


OCR Scan
PDF LT1010 150mA LT1010M LT1Q10M LT1010C O-220 LT1010C 25XJW 2n3866 sos
Fluke a55

Abstract: No abstract text available
Text: TECHNOLOGY LT1088 APPLICATION LT1010 B uffert 15V LT1010 Buffer with Gain of 10t 15V t See , 0.75MHz 15MHz 0.75MHz 2MHz 25MHz 2MHz Type of Buffer Discrete-A = 10 LT1010 Based-A = 10 Discrete-A = 1 LT1010 Based-A = 1 Slew Rate 3000VVS 100VVS 2000VVs 100VVS RF Leveling Loop RF AMPLIFIER


OCR Scan
PDF 300MHz DC-50M 100MHz LT1088 14-Lead CA95035-7487 IM/GP3892K Fluke a55
1994 - LTC1049 equivalent

Abstract: V49R LTC1150 equivalent LTC1150 LTC1051 equivalent LTC1051 lt1078 lt1028 LT1496 LT1001A
Text: 10V/µs 50V/µs LT1022 LT1010 LT1028 LT1122 LT1037 LT1215/16 LT1055 LT1056 LT1057 LT1058 LT1115 LT1126 LT1127 LT1213/14 Typical Slew Rate 1V/µs 0.2V/µs LT®1006 (All) LT1007 LT1014 (All) LTC®1050 LT1413 (All) LTC1051 LT1464/5 LTC1052 LTC1053 LT1113 LT1124 LT1125 LTC1150 LTC1151 , LTC1100 8 14 G = 10 +CMRR 4 LT1010 13 COMP OUT 2 ­VIN 6 V­ OUTPUT = ±10V INTO , 0.01% DUE TO LT1010 MINIMUM VOLTAGE ACROSS BRIDGE = 20mV MINIMUM SUPPLY VOLTAGE = 1.8V 11 +VIN


Original
PDF LT1022 LT1010 LT1028 LT1122 LT1037 LT1215/16 LT1055 LT1056 LT1057 LT1058 LTC1049 equivalent V49R LTC1150 equivalent LTC1150 LTC1051 equivalent LTC1051 lt1078 LT1496 LT1001A
Previous1 2 3 ... 6 7 8 Next
Supplyframe Tracking Pixel