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LT5400ACMS8E-2#TRPBF LT5400ACMS8E-2#TRPBF ECAD Model Analog Devices Inc Quad Matched Resistor Network
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resistor 102 Datasheets Context Search

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2003 - 1N5817GI

Abstract: resistor 102 1N5817 TPS6735 TPS6735EVM TPS6755 TPS6755ID TPSD476K016R0100 102 TANTALUM capacitor 593D476X9016D2W
Text: 1 Capacitor 0.1 µF ceramic 50 V 0805 C6 1 Resistor 130 k 0805 R1 1 Resistor 300 k 0805 R2 1 Resistor 10 k 0805 R3 1 Resistor 42.2 k 1% 0805 R4 1 2 Inductor Resistor 10.2 k 1% 0805 R5 TPS6755 Evaluation Using , (k) VO (V) ­5 42.2 10.2 ­2 16.7 10.2 ­9 75.2 10.2 Figure 1. Application Circuit 1


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PDF SLVA010 TPS6755 TPS6735EVM TPS6735EVM. TPS6735 TPS6755, SLVP095) 1N5817GI resistor 102 1N5817 TPS6735EVM TPS6755ID TPSD476K016R0100 102 TANTALUM capacitor 593D476X9016D2W
2010 - DIODE UG 77

Abstract: B230A LPS6225-103MLC Energy meter bill of material ADP2300 ADP2301 LPS6225-472MLC M100 grm31cr61e106ka12
Text: , 1 × 3, 0.1 pitch Shielded power inductor, 10 H, 2.1 A Resistor , 10 k, 1%, 0603 Resistor , 31.6 k, 1%, 0603 Resistor , 1.8 k, 1%, 0603 Resistor , 10.2 k, 1%, 0603 1.2 A, 20 V, 700 kHz nonsynchronous , Header, 1 × 3, 0.1 pitch Shielded power inductor, 4.7 H, 3.0 A Resistor , 10 k, 1%, 0603 Resistor , 31.6 k, 1%, 0603 Resistor , 1.8 k, 1%, 0603 Resistor , 10.2 k, 1%, 0603 1.2 A, 20 V, 1.4 MHz


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PDF UG-179 ADP2300) ADP2301) ADP2300/ADP2301 UG09232-0-8/10 DIODE UG 77 B230A LPS6225-103MLC Energy meter bill of material ADP2300 ADP2301 LPS6225-472MLC M100 grm31cr61e106ka12
2004 - EClamp2343C

Abstract: sMD MARKING CODE C3 ECLAMP2343C.WCT marking 15k "USB OTG" marking c2
Text: Resistor Pull Up Resistor 1.02 1.01 1.00 0.99 1 0.98 0.98 0.97 0.96 -40 , termination is set by a 22 ohm resistor . The filtering and edge rate control is accomplished with 47pF , 61000-4-2 Level 4 22 Ohm series resistor Connections for both 1.5K Ohm pull up resistors and 15K Ohm pull , by terminating the data lines with either a pull up resisitor or pull down resistor . This device , , separate bumps are provided for protection of the VBus line (5.25V) and the pull up resistor connection to


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PDF EClamp2343C 2343C EClamp2343C sMD MARKING CODE C3 ECLAMP2343C.WCT marking 15k "USB OTG" marking c2
2012 - Not Available

Abstract: No abstract text available
Text: to 2.0 V by means of a fixed resistor 10-2 10-1 1 3 4 5 10 2 10 10-3 1 Discharge current (mA , charge-discharge control circuitry and no series resistor necessary · Maintenance-free, no periodic replacement or , -UR V - 2 102 A IL (µA) Fig. 6 - Test circuit for leakage current Curve 1: 1.0 F, 5.5 V Curve , resistor . Example: 1 A corresponds to 5 M and 0.1 A corresponds to 50 M The vertical axis shows that period , from 5.0 V to 3.5 V 10-2 10-1 3 4 5 Backup time (s) 102 1 2 Curve 1: 1.0 F, 5.5 V Curve 2: 0.47 F


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PDF 2002/95/EC 11-Mar-11
2004 - top marking c3

Abstract: "USB OTG"
Text: 1.04 1.03 1 1.02 0.8 1.01 Series Resistor Capacitance Normalized to 0V 1.2 0.6 , 1.03 1.02 Pull Down Resistor Pull Up Resistor 1.02 1.01 1.00 0.99 1 0.98 , termination is set by a 33 ohm resistor . The filtering and edge rate control is accomplished with 47pF , 61000-4-2 Level 4 33 Ohm series resistor Connections for both 1.5K Ohm pull up resistors and 15K Ohm pull , by terminating the data lines with either a pull up resisitor or pull down resistor . This device


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PDF EClamp3343C 3343C EClamp3343C top marking c3 "USB OTG"
2009 - MAL219622104E3

Abstract: No abstract text available
Text: , 5.5 V Voltage drop from 5.0 to 2.0 V by means of a fixed resistor 10-2 10 6 4 5 1 10-1 , charge-discharge control circuitry and no series resistor necessary · Maintenance-free, no periodic replacement , , 5.5 V Curve 3: 0.22 F, 5.5 V Curve 4: 0.1 F, 5.5 V Curve 5: 0.047 F, 5.5 V RS = 100 102 , fixed series resistor . EXAMPLE: 1 µA CORRESPONDS TO 5 M AND 0.1 µA CORRESPONDS TO 50 M The vertical , 4 MLB203 10 3 4 5 2 10 10 10 -3 10 -2 10 1 102 3 Curve 1


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PDF 18-Jul-08 MAL219622104E3
2011 - Not Available

Abstract: No abstract text available
Text: to 2.0 V by means of a fixed resistor 10-2 10-1 1 3 4 5 10 2 10 10-3 1 Discharge current (mA , charge-discharge control circuitry and no series resistor necessary · Maintenance-free, no periodic replacement or , -UR V - 2 102 A IL (µA) Fig. 6 - Test circuit for leakage current Curve 1: 1.0 F, 5.5 V Curve , resistor . Example: 1 A corresponds to 5 M and 0.1 A corresponds to 50 M The vertical axis shows that period , from 5.0 V to 3.5 V 10-2 10-1 3 4 5 Backup time (s) 102 1 2 Curve 1: 1.0 F, 5.5 V Curve 2: 0.47 F


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PDF 2002/95/EC 11-Mar-11
2011 - MAL219612474E3

Abstract: No abstract text available
Text: backup time (s) 102 1 2 Curve 1: 1.0 F, 5.5 V Curve 2: 0.47 F, 5.5 V Curve 3: 0.22 F, 5.5 V Curve 4: 0.1 F, 5.5 V Curve 5: 0.047 F, 5.5 V Voltage drop from 5.0 to 2.0 V by means of a fixed resistor 10-2 , control circuitry and no series resistor necessary Maintenance-free, no periodic replacement or service , -UR V ­ 2 Fig.7 Test circuit for leakage current A 102 + V C Constant current , via a fixed series resistor . EXAMPLE: 1 µA CORRESPONDS TO 5 M AND 0.1 µA CORRESPONDS TO 50 M The


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PDF 2002/95/EC 11-Mar-11 MAL219612474E3
196DLC

Abstract: No abstract text available
Text: resistor 10-2 10-1 1 3 4 5 10 2 10 10 10 -2 10 -1 10 1 discharge current (mA) 10 , charge-discharge control circuitry and no series resistor necessary · Maintenance-free, no periodic replacement or , ( V ) ­ 2 Fig.7 Test circuit for leakage current A 102 + V C Constant current , discharge current if 5 V is connected to the capacitor via a fixed series resistor . EXAMPLE: 1 µA , 4 5 backup time (s) 102 1 2 Curve 1: 1.0 F, 5.5 V Curve 2: 0.47 F, 5.5 V Curve 3: 0.22 F, 5.5 V


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PDF 18-Jul-08 196DLC
2003 - C3216JB0

Abstract: tr 30 f 124 C3216JB1E 1608 105k MCH3405 RLF5018T-220MR63 RR0816P-203-D, susumu CPH3106 CPH3206 MB39A103
Text: 18 k ±0.5% ±25 ppm/ °C 1608 ssm 50 C32 condenser E225K 60 R12 Resistor 301-D 61 R13 Resistor 332-D 62 R14 Resistor 123-D 63 R15 Resistor 153-D 64 R16 Resistor 102 -D 65 R17 Resistor 183 , MATSUKYU MacEight 66 R18 Resistor 133-D 67 R19 Resistor 302-D 68 R20 Resistor 223-D 69 R21 Resistor 153-D 70 R22 Resistor 102 -D 71 R23 Resistor 183-D 72 R24 Resistor 133 , 50 m 3216 54 R4 Resistor 151-D RR0816P- 1/16 W 1608 ssm 55 R5


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PDF DS04-71103-1Ea MB39A103 MB39A103 C3216JB0 tr 30 f 124 C3216JB1E 1608 105k MCH3405 RLF5018T-220MR63 RR0816P-203-D, susumu CPH3106 CPH3206
2006 - Not Available

Abstract: No abstract text available
Text: 20mA 100 = Vendor Spec. 101 = Resistor 102 = Thermo 103 = SSI 104 = Increment 105 = Serial , -100V to 10V 100 = Vendor Spec. 101 = Resistor 102 = Thermo 103 = SSI 104 = Increment 105 = Serial , Diagnostics LEDs 31 10.2 Fieldbus / DeviceNet LEDs 32 10.3 DeviceNet Node Address Switches , Resistor 103 = SSI 104 = Increment 105 = Serial Datatype of Value 100 = Vendor specific Value of , or fault see semantics Output Range 100 = Vendor Spec. 101 = Resistor 103 = SSI 104 = Increment


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PDF IPxxxx-B520
2002 - cd low resistance precision resistors

Abstract: mg650 caddock CD2015FC CD2520FC MG650 MG655 MG660 MG680 MG710 MG815
Text: connected is 150°C. N/A resistor . .140 .030 (25.40 1.02 ) 60 .750 .060 0.025 0.050 .710 .040 .025 , Applications 300 M Meg (25.40 .050 board±.76) ( 1.02 .002 1.27) resistor MG721 chip resistor is useful2to , (50.80 2.03)chip resistor ( 1.02 .002 Custom resistance VoltageAC 0.10 rated power IMS, Alumina, N/A , to .05) .240 ±.030 ( 1.02 .05) (25.40.080 process ( 1.02 provide for stable resistor performance even , 320 Load that of Resistor ( 1.02 .05)(Example: MG750-15). of Note+44 max. overload flux fields the


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PDF MG680 Caddock496-0700 MG710 IL110 cd low resistance precision resistors mg650 caddock CD2015FC CD2520FC MG650 MG655 MG660 MG710 MG815
2012 - Not Available

Abstract: No abstract text available
Text: : 0.047 F, 5.5 V Voltage drop from 5.0 V to 2.0 V by means of a fixed resistor 10-2 10-1 1 3 4 5 10 , charge-discharge control circuitry and no series resistor necessary · Maintenance-free, no periodic replacement or , x 10 -3 x T s C F = -UR V - 2 102 A IL , connected to the capacitor via a fixed series resistor . Example: 1 A corresponds to 5 M and 0.1 A , Curve 5: 0.047 F, 5.5 V Voltage drop from 5.0 V to 3.5 V 10-2 10-1 3 4 5 Backup time (s) 102 1 2


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PDF 2011/65/EU 2002/95/EC. 2002/95/EC 2011/65/EU. 12-Mar-12
2012 - Not Available

Abstract: No abstract text available
Text: to 2.0 V by means of a fixed resistor 10-2 10-1 1 3 4 5 10 2 10 10-3 1 Discharge current (mA , charge-discharge control circuitry and no series resistor necessary · Maintenance-free, no periodic replacement or , -UR V - 2 102 A IL (µA) Fig. 6 - Test circuit for leakage current Curve 1: 1.0 F, 5.5 V Curve , resistor . Example: 1 A corresponds to 5 M and 0.1 A corresponds to 50 M The vertical axis shows that period , from 5.0 V to 3.5 V 10-2 10-1 3 4 5 Backup time (s) 102 1 2 Curve 1: 1.0 F, 5.5 V Curve 2: 0.47 F


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PDF 2002/95/EC 2011/65/EU 2002/95/EC. 2002/95/EC 2011/65/EU. 12-Mar-12
2005 - DS90LT012ATMF

Abstract: DS90LT012A ANSI/TIA/EIA-644-A Differential Line Receiver llp-8 DS90LV012A DS90LV012ATMF DS90LV018A MF05A SN65LVDS2
Text: maximum propagation delay Integrated line termination resistor ( 102 typical) Single 3.3V power supply , input line termination resistor for point-to-point applications. The DS90LV012A and DS90LT012A, and , Integrated Termination Resistor (DS90LT012A) CIN Input Capacitance IN+ = IN- = GND VOH Output , 4.4 mA 102 3 pF 2.4 3.1 V IOH = -0.4 mA, Inputs terminated 2.4 3.1 , . Typically the characteristic impedance of the media is in the range of 100. A termination resistor of 100


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PDF DS90LV012A/DS90LT012A DS90LV012A DS90LT012A CSP-9-111S2) CSP-9-111S2. DS90LT012ATMF ANSI/TIA/EIA-644-A Differential Line Receiver llp-8 DS90LV012ATMF DS90LV018A MF05A SN65LVDS2
2008 - DS90LT012ATMF

Abstract: 200150 DS90LT012A DS90LT012ATLD DS90LV012A DS90LV012ATLD DS90LV012ATMF DS90LV018A MF05A VCO 1.4 GHz
Text: delay Integrated line termination resistor ( 102 typical) Single 3.3V power supply design (2.7V to 3.6V , resistor for point-to-point applications. The DS90LV012A and DS90LT012A, and companion LVDS line driver , + = +2.4V, VIN- = +2.0V RT Integrated Termination Resistor (DS90LT012A) CIN Input , VDD = 0V Differential Input Current A 4 VIN = 0V A 3.9 4.4 mA 102 3 pF , 100. A termination resistor of 100 should be selected to match the media, and is located as close to


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PDF DS90LV012A/DS90LT012A DS90LV012A DS90LT012A DS90LT012ATMF 200150 DS90LT012ATLD DS90LV012ATLD DS90LV012ATMF DS90LV018A MF05A VCO 1.4 GHz
2002 - DS90LT012A

Abstract: DS90LT012ATMF DS90LV012A DS90LV012ATMF DS90LV018A MF05A SN65LVDS2 SN65LVDT2
Text: maximum propagation delay Integrated line termination resistor ( 102 typical) Single 3.3V power supply , input line termination resistor for point-to-point applications. The DS90LV012A and DS90LT012A, and , (DS90LT012A) VIN+ = +2.4V, VIN- = +2.0V RT Integrated Termination Resistor (DS90LT012A) CIN , 3.9 4.4 mA 102 3 pF 2.4 3.1 V IOH = -0.4 mA, Inputs terminated 2.4 3.1 , . Typically the characteristic impedance of the media is in the range of 100. A termination resistor of 100


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PDF DS90LV012A/DS90LT012A DS90LV012A DS90LT012A DS90LV012A DS90LT012ATMF DS90LV012ATMF DS90LV018A MF05A SN65LVDS2 SN65LVDT2
2004 - C106 MG

Abstract: MG712 100M MG650 MG655 MG660 MG680 MG710 MX431 MX510 080also
Text: .030 ( 1.02 .05)Encapsulation:over resistor element. temperature ratings). .240 .76) silicone coating , Type 2 in resistor 2,500 M pattern the the Meg complete1.500 1.52) cap .030 ( 1.02 .002 element , power. the resistor and .040 element. The (6.10 .030 ( 1.02 .05)Performance to during the manufacturing , ( 1.02 .05) for POWER Most .040 Derating Curve: %OR20 60 are stable resistor Load Life, Method 106 , AMBIENT equipment 320 or 1,000 Meg 5,000 M also Load that of Resistor ( 1.02 .05) flux the entire


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PDF 750Tel: 44caddock medical20electronics. countryderating870 MG680 MG710 IL110 C106 MG MG712 100M MG650 MG655 MG660 MG710 MX431 MX510 080also
2002 - TF050

Abstract: MG650 MG655 MG660 MG680 MG710 MG750-15 64c05 per050
Text: tomodelsType TF max. resistor also be produced 2,500 10,000 MG750 5.0 rating OR 60 (8.00 .030 ( 1.02 .002 , Resistor ( 1.02 .05)(Example: Range flux fields the entire length the Life, Roverload RHOPOINT , Resistance Values - as highKohm to 125 Megohms. powerprovide Power and resistor performanceratings MG Wide , (Example:stable resistor Note that overload · Maximum Tolerancesoperating voltagesof hours. Long-Term , Non-Inductive Apply toto which TF resistor models the resistive Design all Type uses shown in Specifications


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PDF 750Tel: 44caddock medical20electronics. countryderating870 MG680 MG710 IL110 TF050 MG650 MG655 MG660 MG710 MG750-15 64c05 per050
1999 - MG650

Abstract: MG655 MG660 MG680 MG710 MG750-15 THV10 THV15 MG716
Text: .200 voltage resistor .315 .76) ( 1.02 .05) sets, .040 ratingsfor0.4% max. Meg 300 Meg 1,500 M 6,000 , high voltage divider equipment 320demands custom high Load that of Resistor ( 1.02 the entire , resistor tech-nology The Type THV Precision High Voltage Divider Networks MG doubles the allowable , 's Micronox® resistance films resistor tech-nology the source of Preconditioning for Power and Voltage Ratings introduce Caddock's advanced high voltage resistor tech-nology which655 MG doubles the high


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PDF medical20electronics. MG680 performance200 MG655North MG710 IL110 MG650 MG655 MG660 MG710 MG750-15 THV10 THV15 MG716
2002 - MG650

Abstract: MG655 MG750-15 MP900 MV217 MV228 MV234 MV261 mv2342 mg750 caddock
Text: voltagepoint 0.3 Standard 1.000 1.27) (6.10 .030 ( 1.02 .002 levels inch (7.62 mm) from the resistor body , of Resistor ( 1.02 .05)(Example: MG750-15). TEMPERATURE, °CRoverload flux fields the entire length , process to provide Power and resistor performance even Maximum Operating Maximum Operating ···MG 710 MG , :stable resistor Note that overload ·Maximum continuous operating voltagesNon-Inductive Performance. Full Power Ratings without derating for as high as · Resistance Series Power Resistor Products for


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PDF 50Range 750Tel: 44caddock medical20electronics. countryderating870 MG680 MG710 IL110 MG650 MG655 MG750-15 MP900 MV217 MV228 MV234 MV261 mv2342 mg750 caddock
it4141

Abstract: TFD 2604
Text: pull-down resistor with pull-down resistor with pull-down resistor 102 TRGO IN Serial output , resistor with pull-down resistor 102 LP4B1 IN 104 LP4B2 IN 105 BCHSET0 IN 106 , TSYNC C 98 V DD [- 99 TESTINI4 L_ 100 LPA/SCLK IZ 101 LP4BI/TRGO 102 N.C. C 103 LP4B2/TRG1 C 104 , YTD427. R e m a rk s with pull-up resistor with pull-up resistor with pull-up resistor with pull-up resistor with pull-up resistor with pull-up resistor with pull-up resistor with pull-up resistor with


OCR Scan
PDF YTD426B YTD426B LSI-6TD426B3 GQG4G33 00D4D YTD423B YTD423D. it4141 TFD 2604
1996 - DO1608C-103

Abstract: 1N5817 MAX755 TPS6755 TPS6755ID TPS6755IDR TPS6755IP TPS6755Y
Text: % 0805 R4 1 Resistor 10.2 k 1% 0805 R5 POST OFFICE BOX 655303 · DALLAS, TEXAS , + 100 µF 10.2 k 82 pF 42.2 k Not required for loads of 100 mA or less Figure 1. Typical , voltage on the current-sense resistor and the oscillator ramp) and feeds it to the PWM comparator , . The drain is connected to OUT and the source is connected to a current-sense resistor . The voltage across the resistor is proportional to current in the power switch and is tied to the overcurrent


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PDF TPS6755 SLVS155A 160-kHz MAX755 TPS6755 DO1608C-103 1N5817 MAX755 TPS6755ID TPS6755IDR TPS6755IP TPS6755Y
1996 - 3528 pwm 20 PINS

Abstract: 1N5817 MAX755 TPS6755 TPS6755ID TPS6755IDR TPS6755IP TPS6755Y DO1608C-103
Text: R3 1 Resistor 42.2 k 1% 0805 R4 1 Resistor 10.2 k 1% 0805 R5 , GND COMP FB 8 7 1 µF 1N5817 ­5V 6 5 10 µH + 100 µF 10.2 k 82 pF , resistor and the oscillator ramp) and feeds it to the PWM comparator. driver latch The latch, which , current-sense resistor . The voltage across the resistor is proportional to current in the power switch and is , voltage applied to SS, which is internally pulled to REF by a 1.2-M resistor . SS can be externally pulled


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PDF TPS6755 SLVS155 160-kHz MAX755 TPS6755 3528 pwm 20 PINS 1N5817 MAX755 TPS6755ID TPS6755IDR TPS6755IP TPS6755Y DO1608C-103
1996 - MAX755

Abstract: 3528 pwm 20 PINS 1N5817 TPS6755 TPS6755ID TPS6755IDR TPS6755IP TPS6755Y
Text: % 0805 R4 1 Resistor 10.2 k 1% 0805 R5 POST OFFICE BOX 655303 · DALLAS, TEXAS , + 100 µF 10.2 k 82 pF 42.2 k Not required for loads of 100 mA or less Figure 1. Typical , voltage on the current-sense resistor and the oscillator ramp) and feeds it to the PWM comparator , . The drain is connected to OUT and the source is connected to a current-sense resistor . The voltage across the resistor is proportional to current in the power switch and is tied to the overcurrent


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PDF TPS6755 SLVS155A 160-kHz MAX755 TPS6755 MAX755 3528 pwm 20 PINS 1N5817 TPS6755ID TPS6755IDR TPS6755IP TPS6755Y
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