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Top Results (6)

Part Manufacturer Description Datasheet Download Buy Part
LT1790ACS6-3.3#TRPBF Linear Technology LT1790 - Micropower SOT-23 Low Dropout Reference Family; Package: SOT; Pins: 6; Temperature Range: 0°C to 70°C
LT1790AIS6-2.5#TRPBF Linear Technology LT1790 - Micropower SOT-23 Low Dropout Reference Family; Package: SOT; Pins: 6; Temperature Range: -40°C to 85°C
LT1790BCS6-1.25#TRPBF Linear Technology LT1790 - Micropower SOT-23 Low Dropout Reference Family; Package: SOT; Pins: 6; Temperature Range: 0°C to 70°C
LT1790BCS6-4.096#TRPBF Linear Technology LT1790 - Micropower SOT-23 Low Dropout Reference Family; Package: SOT; Pins: 6; Temperature Range: 0°C to 70°C
LT1790BIS6-3#TRPBF Linear Technology LT1790 - Micropower SOT-23 Low Dropout Reference Family; Package: SOT; Pins: 6; Temperature Range: -40°C to 85°C
LT1790ACS6-3#PBF Linear Technology LT1790 - Micropower SOT-23 Low Dropout Reference Family; Package: SOT; Pins: 6; Temperature Range: 0°C to 70°C

LT1790-2 datasheet (2)

Part Manufacturer Description Type PDF
LT1790-2.5 Linear Technology 2.5V Micropower SOT-23 Low Dropout Reference Original PDF
LT1790-2.5 Linear Technology 2.5V Micropower SOT-23 Low Dropout Reference Original PDF

LT1790-2 Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
2004 - SOT23 WU

Abstract: LTC1775 MPS2907A LT1790 LT1790s LINEAR TECHNOLOGY VOLUME
Text: Markell and John Wright Issue Highlights . 2 LTC® in the News . 2 SOT-23 Voltage Reference Has 0.05% Initial Accuracy, 10ppm/°C Tempco, Operates on 35µA , accurate final test TC measurements. Figure 2 shows the long-term drift of the SOT-23 LT1790S6 , Figure 2 . LT1790S6-2.5V SOT-23 long-term drift (three separate units) ­50 0 200 400 600 800 1000 , 200 6 1, 2 ­2.5V 50mA VEE = ­5V Figure 5. Competitive 2.5V reference industrial


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PDF OT-23 10ppm/ OT-23 LT1790 LT1790-2 SOT23 WU LTC1775 MPS2907A LT1790s LINEAR TECHNOLOGY VOLUME
2000 - LTPZ

Abstract: No abstract text available
Text: Connection for LT1790-2.5 Typical VOUT Distribution for LT1790-2.5 50 0.1µF LT1790-2.5 1, 2 6 , LT1790-2.048 CURRENT IN RL (mA) 1 0.20 TA = 30°C 80 2 TYPICAL PARTS SOLDERED TO PCB 40 , After 500 Hr) 0.30 140 R1 10k LT1790-2.5 100 6 1, 2 0.20 0.15 80 VOUT RL , VOUT (AC COUPLED) 4V LT1790-2.5 3V C1 0.1µF 1, 2 VOUT = –2.5V 2V 0V V â , . Indefinite Operating Temperature Range (Note 2


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PDF LT1790 OT-23 10ppm/Â 25ppm/Â 40ppm MPS2907A LT1019 LT1460 LTPZ
2000 - LT1790

Abstract: ltpz 30578 LT1790-5 LTXW LT1790-25
Text: Connection for LT1790-2.5 0.1µF LT1790-2.5 1, 2 6 VOUT = 2.5V 1µF 1790 TA01 NUMBER OF UNITS , Characteristics 140 0.30 TA = 30°C 120 2 TYPICAL PARTS SOLDERED TO PCB R1 10k 3V 4 LT1790-2.5 , the LT1790-2.5 with a 1µF input bypass and 1µF load capacitor. Figure 2 shows the output response to , F02 Figure 5. LT1790-2.5 Sourcing 4mA to 5mA Figure 2 . Output Response to 0.5V Ripple on VIN VIN 3V 4 CIN 0.1µF LT1790-2.5 1, 2 1k 6 CL 1µF VGEN 1V 1790 F03 Figure 3


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PDF LT1790 OT-23 Grade--10ppm/ Grade--25ppm/ LT1790s MPS2907A LT1019 LT1460 10ppm/ LT1790 ltpz 30578 LT1790-5 LTXW LT1790-25
2000 - LTPZ

Abstract: LTXT LT1790-5 30578 ltqc ltxw LTXU Marking ltqb LT1790AIS6-3#TRPBF Zener Diode LT 450
Text: LT1790-2.5 Typical VOUT Distribution for LT1790-2.5 50 0.1F LT1790-2.5 1, 2 6 40 1F , the turn-on time for the LT1790-2.5 with a 1F input bypass and 1F load capacitor. Figure 2 shows the , Figure 2 . Output Response to 0.5V Ripple on VIN Figure 1. Turn-On Characteristics of LT1790-2.5 4 VIN 3V CIN 0.1F LT1790-2.5 1k 6 CL 1F 1, 2 VGEN 1V 1790 F03 Figure 3 , 3V 4 6V 6 VOUT (AC COUPLED) 4V LT1790-2.5 C1 0.1F 1, 2 VOUT = ­2.5V 2V


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PDF LT1790 OT-23 OT-23 LT1790 MPS2907A LT1019 LT1460 10ppm/ LT1461 LTPZ LTXT LT1790-5 30578 ltqc ltxw LTXU Marking ltqb LT1790AIS6-3#TRPBF Zener Diode LT 450
2000 - LT1790

Abstract: ltmz LT1790-25 Grade-10ppm
Text: LT1790-2.5 1, 2 6 VOUT = 2.5V 1µF 1790 TA01 NUMBER OF UNITS 40 Positive Connection , same capacitors. VIN 3V VOUT 2V LT1790-2.5 1, 2 1k 6 CL 1µF VGEN 1V 1790 , shift is typically just 150ppm (0.015%). R1 10k 3V 4 6 LT1790-2.5 C1 0.1µF 1, 2 VOUT = , SCHEMATIC 4 VIN 6 VOUT 1, 2 GND 1790 SS 7 LT1790-2.5 U TYPICAL APPLICATION ­ 2.5V , (Note 2 ) . ­ 40°C to 125°C Storage Temperature Range (Note 3


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PDF LT1790-2 OT-23 OT-23 LT1236 LT1460 10ppm/ LT1461 LT1634 LT1790 ltmz LT1790-25 Grade-10ppm
2000 - V17905

Abstract: 30578 LTPZ LT1790-2048 LT1790 205046
Text: Connection for LT1790-2.5 0.1µF LT1790-2.5 1, 2 6 VOUT = 2.5V 1µF 1790 TA01 NUMBER OF UNITS , turn-on time for the LT1790-2.5 with a 1µF input bypass and 1µF load capacitor. Figure 2 shows the , 1790 F02 Figure 5. LT1790-2.5 Sourcing 4mA to 5mA Figure 2 . Output Response to 0.5V Ripple on VIN VIN 3V 4 CIN 0.1µF LT1790-2.5 1, 2 1k 6 CL 1µF VGEN 1V 1790 F03 Figure 3 , grounded output. C1 provides R1 10k 3V 4 6 LT1790-2.5 C1 0.1µF 1, 2 VOUT = ­2.5V V ­ VOUT


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PDF LT1790 OT-23 Grade--10ppm/ Grade--25ppm/ LT1790s MPS2907A LT1019 LT1460 10ppm/ V17905 30578 LTPZ LT1790-2048 LT1790 205046
2000 - ltmz

Abstract: sot-23 transistor g15
Text: Typical VOUT Distribution 50 167 UNITS 45 2.6V VIN 18V 0.1µF 4 LT1790-2.5 1, 2 6 , LT1790-2.5 0.20 80 VOUT RL 5k 1µF 60 ppm 0.15 100 6 1, 2 ­VEE 40 , time for the LT1790-2.5 with a 1µF input bypass and 1µF load capacitor. Figure 2 shows the output , output shift is typically just 150ppm (0.015%). R1 10k 3V 4 6 LT1790-2.5 C1 0.1µF 1, 2 , Range (Note 2 ) . ­ 40°C to 125°C Storage Temperature Range


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PDF LT1790-2 OT-23 OT-23 SC-74A LT1019 LT1460 10ppm/ ltmz sot-23 transistor g15
2006 - LTC2481

Abstract: LT1790 LT1790-5 LT1236 LT1236A-5 DC951
Text: . Figure 2 ­ Software Screenshot 2 QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 951 16-BIT DELTA , . However, in the highest gain settings the LT1790 can elevate the input noise by a factor of 2 or 3. The , 140dB minimum CMRR of the LTC2481. BIPOLAR SYMMETRY age source (with a voltage less than Vref/ 2 , LT1790-2.5 reference or 1k ­ 1k divider from the onboard 5V reference to ground. Apply a 10Hz, 2V


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PDF 16-BIT LTC2481 LTC2481, LTC2481 25ppm 600nV LT1790 LT1790-5 LT1236 LT1236A-5 DC951
2005 - Temperature controller sigma

Abstract: LT1790-5 LT1236 LT1790 LTC2480
Text: points averaged for the DVM display. Figure 2 ­ Software Screenshot 2 QUICK START GUIDE FOR , elevate the input noise by a factor of 2 or 3. The LT1236 is significantly quieter than the LT1790 and , source (with a voltage less than Vref/ 2 ) from IN+ to IN- and note the indicated voltage. Reverse the , , connect IN- to a 2.5 volt source such as an LT1790-2.5 reference or 1k ­ 1k divider from the onboard 5V


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PDF LTC2480 LTC2480, LTC2480 DC798 DC590 Temperature controller sigma LT1790-5 LT1236 LT1790
2004 - CR05-1R0JM

Abstract: No abstract text available
Text: the DVM display. Figure 2 . Software Screenshot Hardware Setup Connection to DC590 Serial , connecting dc951af 2 DEMO MANUAL DC951A Hardware Setup the board to an existing circuit the exposed , LT1790 can elevate the input noise by a factor of 2 or 3. The LT1236 is significantly quieter than the , than VREF/ 2 ) from IN+ to IN– and note the indicated voltage. Reverse the polarity; the indicated , C1, C6, C7 2 2 C2, C3 CAP., X5R 4.7µF 6.3V, 20%, 0603 TDK, C1608X5R0J475M 3 1


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PDF DC951A LTC2481 16-Bit LTC2481, LTC2481 25ppm 600nVRMS 140dB. CR05-1R0JM
2004 - Not Available

Abstract: No abstract text available
Text: strip chart and histogram, and changing the number of points averaged for the DVM display. Figure 2 . Software Screenshot 2 dc798bf DEMO MANUAL DC798B Hardware Setup Connection To DC590 Serial , noise by a factor of 2 or 3. The LT1236 is significantly quieter than the LT1790 and is a good choice , (with a voltage less than VREF / 2 ) from IN+ to IN– and note the indicated voltage. Reverse the , %, 0402 TDK, C1005X7R1C104M 2 2 C2, C3 CAP., X5R, 4.7µF, 6.3V, 20%, 0603 TDK


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PDF DC798B LTC2480 16-Bit LTC2480, 16-bit LTC2480 12LSB 16LSB 140dB.
2000 - sepic converter 550khz

Abstract: LT1615 LT1790 LTC1657L LTC1757A LTC2410
Text: accuracy for VCC 3 BRIDGE IMPEDANCE 100 TO10k 5 6 2 REF + VCC IN + IN ­ 4 1µF 12 , frequency of the 4th order sync filter allows 120dB rejection of line frequencies ± 2 % with the on-chip , . 2 Single Cell Li-Ion to 3.3V Converter is Tiny and Draws Very Low Power-LT1615 . , handheld instruments and base stations for wireless communications. Continued on page 2 , LTC and LT are , voltage generated by the baseband circuitry to set the output power. The LTC1757A- 2 dual band controller


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PDF 24-Bit, Reference--LTC2410 24-bit LTC2410 16-pin FDS7760A Si4874 1-800-4-LINEAR sepic converter 550khz LT1615 LT1790 LTC1657L LTC1757A
2007 - CR8348-2500-N

Abstract: LTC2351-14 10MF CR Magnetics 50w high power led LT1790-125 LT1790-1.25
Text: Monitoring Application 10/07/426 CONV SCK SDO DN426 F01 Figure 2 shows the AC line voltage in , F02 Figure 2 . Line Voltage Figure 3. 50W Incandescent Bulb Current 1.0 0.8 0.8 0.6


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PDF 14-bit LTC2351-14 200ps) dn426 dn426f CR8348-2500-N 10MF CR Magnetics 50w high power led LT1790-125 LT1790-1.25
2005 - ADC590

Abstract: HARDWARE CIRCUIT DIAGRAM FOR 16 pin diagram LTC1867 LT1790 LTC1867L 175kSPS
Text: the Help menu item, as features may be added periodically. Figure 2 . Software Screenshot 2 , that no power is applied to pin 2 of J1. 3 QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 873


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PDF 16-BIT 175KSPS LTC1867L LTC1867L LTC1867 16-pin ADC590 HARDWARE CIRCUIT DIAGRAM FOR 16 pin diagram LT1790
2006 - LT1790-5

Abstract: serial in serial out experiment LT1790 LTC2483 "data precision 8200"
Text: , and changing the number of points averaged for the DVM display. Figure 2 ­ Software Screenshot 2 QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 955 16-BIT DELTA SIGMA ADC WITH I2C INTERFACE , noise, floating voltage source (with a voltage less than Vref/ 2 ) from IN+ to IN- and note the indicated , rejection, connect IN- to a 2.5 volt source such as an LT1790-2.5 reference or 1k ­ 1k divider from the


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PDF 16-BIT LTC2483 LTC2483, LTC2483 600nV 140dB. DC955 LT1790-5 serial in serial out experiment LT1790 "data precision 8200"
2004 - Not Available

Abstract: No abstract text available
Text: strip chart and histogram, and changing the number of points averaged for the DVM display. Figure 2 . Software Screenshot 2 dc955af DEMO MANUAL DC955A Hardware Setup Connection to DC590 Serial , noise, floating voltage source (with a voltage less than VREF/ 2 ) from IN+ to IN– and note the , to a DC source. Parts List ITEM QTY 1 2 REFERENCE PART DESCRIPTION MANUFACTURER/PART NUMBER C1, C2 CAP., X7R, 0.1µF, 16V, 20%, 0402 TDK, C1005X7R1C104M 2 1 C3


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PDF DC955A LTC2483 16-Bit LTC2483 600nVRMS 140dB. 10-pin DC955A
2004 - DN331

Abstract: HW-108A HW108 RESISTOR FOOTPRINT 0204 LTC1592 LT6011 LT1881 LT1782 LT1469 LT1236-5
Text: Linear Technology Corporation. 100k 4 1, 2 VS HALL ELEMENT ASAHI-KASEI HW-108A (RANK D , 8 1 + 1k 400 ×4 3 100k 4 LT1782 ­ ­ 1/ 2 LT6011 2 1 10k OFFSET VS ADJUST 7.87k 1% 2 6 26.7k 1% ­ 1/ 2 LT6011 5 + 7 4 DN331 F01 Figure 1 , DAC Amplifier Figure 2 shows the LT6011 applied as both a reference amplifier and I-to-V converter , 6 + B 1/ 2 LT6011 7 SUPPLY CURRENT 1.6mA TO 4mA DEPENDING ON CODE ­ C2 270pF 2


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PDF LT6011 16-BIT LTC1592 LT6011 DN331 270pF com/go/dnLT6011 dn331f HW-108A HW108 RESISTOR FOOTPRINT 0204 LTC1592 LT1881 LT1782 LT1469 LT1236-5
2004 - LTC2433-1

Abstract: LT1236 LT1790 LTC24331 LT1790-25 DC74
Text: and histogram, and changing the number of points averaged for the DVM display. 2 QUICK START , . JP5 ­ Trigger input signal. Pin 1 is a 5 volt logic signal, pin 2 is ground. When triggered mode is , voltage less than Vref/ 2 ) from IN+ to IN- and note the indicated voltage. Reverse the polarity; the , IN- to a 2.5 volt source such as an LT1790-2.5 reference or a power supply. Apply a 10Hz, 2V


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PDF 16-BIT LTC2433-1 LTC2433-1, LTC2433-1 DC590 LT1236 LT1790 LTC24331 LT1790-25 DC74
2003 - LTC2410

Abstract: DC575 LT1236 LT1790
Text: the number of points averaged for the DVM display. 2 QUICK START GUIDE FOR DEMONSTRATION , . JP5 ­ Trigger input signal. Pin 1 is a 5 volt logic signal, pin 2 is ground. When triggered mode is , , low noise, floating voltage source (with a voltage less than Vref/ 2 ) from IN+ to IN- and note the , mode rejection, connect IN- to a 2.5 volt source such as an LT1790-2.5 reference or a power supply


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PDF 24-BIT LTC2410 LTC2410, LTC2410 16ppm DC590 LT1790-2 DC575 LT1236 LT1790
2004 - MIDCOM 50480

Abstract: LT1790-5 LTC2433-1 6N139 BAT54S LT1029 MPSA42 MPSA92 50480 MIDCOM
Text: of 17.5kHz ± 2 %, the tolerance of the internal oscillator. While a conversion is taking place , microcontroller or FPGA. The data format is shown in Figure 2 . , LTC and LT are registered trademarks of , 108mV 1k 0.010 1 2 3 4 5 ­48V 10k LTC2433 10 VCC FO VCC 9 REF+ SCK 8 REF­ SDO 7 GND + CS IN 6 ­ GND IN 3 FULL SCALE = 5.4A ­48V (1c) BAT54S 2 × a LT1790 , Current Monitor 07/04/341 1µF 8 7 6 V­ ­7V TO ­100V (1b) VCC 6N139 1.54k 2 a


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PDF 16-Bit 100mV RS232. LTC2433-1. com/go/dnLTC2433 dn341f MIDCOM 50480 LT1790-5 LTC2433-1 6N139 BAT54S LT1029 MPSA42 MPSA92 50480 MIDCOM
2009 - voltage references

Abstract: LT1798 LT1461 LT1389 LT1236 LT1031 LT1027 LT1019 LT1009 voltage reference IC LM129
Text: LTC1286 1 2 LT1634-4.096 0.1µF 3 4 VREF VCC +IN CLK ­IN DOUT GND CS/SHDN , -8, MSOP-8, Z LT1029 20ppm/°C 0.20% 700µA Bandgap 5V LM399 1ppm/°C 2 % 15mA , (°C) 100 125 Figure 2 . Voltage reference temperature characteristics inherent , can be easily seen in the output voltage vs temperature characteristic of Figure 2 . Note that there , Reference Types The two main types of voltage reference are shunt and series. See Table 2 for a list of


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PDF
2005 - LT1790

Abstract: LTC2482 DC941 FLUKE rms dc converter "data precision 8200"
Text: DVM display. Figure 2 . Software Screenshot 2 QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 941 , voltage source (with a voltage less than Vref/ 2 ) from IN+ to IN- and note the indicated voltage. Reverse , input normal mode rejection, connect IN- to a 2.5 volt source such as an LT1790-2.5 reference or 1k ­


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PDF 16-BIT LTC2482 LTC2482, LTC2482 600nV LT1790. LT1790 DC941 FLUKE rms dc converter "data precision 8200"
2004 - LTC2412

Abstract: LT1236 LT1790 DC746
Text: QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 746 2 CHANNEL, 24-BIT DIFFERENTIAL INPUT DELTA SIGMA ADC LTC2412 DESCRIPTION Demonstration circuit 746 features the LTC2412, a 2 channel, 24-bit high , are available. Call the LTC factory. 1 QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 746 2 , and histogram, and changing the number of points averaged for the DVM display. 2 QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 746 2 CHANNEL, 24-BIT DIFFERENTIAL INPUT DELTA SIGMA ADC HARDWARE


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PDF 24-BIT LTC2412 LTC2412, LTC2412 16ppm DC590 LT1236 LT1790 DC746
2000 - LT1461

Abstract: LT1236 LT1790 LTZ1000 LT1790SOT23-2
Text: elevated temperature readings. The equation is: AF EA 1 1 ­ = e K T 1 T 2 reference, this , and measured with an 8.5 digit DVM. Figures 1 and 2 show typical longterm drift of the LT1461S8 , 1600 DN229 F02 HOURS Figure 2 . LT1790SOT23-2.5V Long-Term Drift 200 DRIFT (ppm) 150 100


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PDF LT1461 LT1790 1-800-4-LINEAR. dn229f LT1236 LTZ1000 LT1790SOT23-2
HD1X2

Abstract: HD1X2-079 LTC2433-1 CR16-101 SC70-6P LT1236 MS10 LTC2433-1CMS LTC24331 LT1790
Text: and histogram, and changing the number of points averaged for the DVM display. 2 QUICK START , . JP5 ­ Trigger input signal. Pin 1 is a 5 volt logic signal, pin 2 is ground. When triggered mode is , voltage less than Vref/ 2 ) from IN+ to IN- and note the indicated voltage. Reverse the polarity; the , ADC IN MS10 PACKAGE ENG: MARK THOREN (25-30) Item Qty Reference 1 4 C1,C2,C6,C7 2 2 C3 3 1 , CABLE, CA-2440 NOTES: UNLESS OTHERWISE SPECIFIED 1. ALL RESISTORS ARE IN OHMS. 2 . INSTALL SHUNTS ON


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PDF 16-BIT LTC2433-1 LTC2433-1, LTC2433-1 DC590 Tech/16W 1/16W HD1X2 HD1X2-079 CR16-101 SC70-6P LT1236 MS10 LTC2433-1CMS LTC24331 LT1790
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