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Part Manufacturer Description Datasheet BUY
SN65EL16DR Texas Instruments 5.0 V ECL Differential Buffer 8-SOIC -40 to 85 visit Texas Instruments
SN65EL16D Texas Instruments 5.0 V ECL Differential Buffer 8-SOIC -40 to 85 visit Texas Instruments Buy
SN65EL16DGK Texas Instruments 5.0 V ECL Differential Buffer 8-VSSOP -40 to 85 visit Texas Instruments Buy
SN65EL16DGKR Texas Instruments 5.0 V ECL Differential Buffer 8-VSSOP -40 to 85 visit Texas Instruments
PMP5660.2 Texas Instruments Multi-Transformer 2x25V (50V@700mA) visit Texas Instruments
PMP5660.1 Texas Instruments Multi-Transformer 2x25V (390V@192mA) visit Texas Instruments

EL16 transformer

Catalog Datasheet MFG & Type PDF Document Tags

electronic transformer halogen 12v

Abstract: Anchorn electronic transformer consumption Part Name Color Beam Angle Lux@ 1m EL16-51W2 White 10° 1800 EL16-51X2 Warm White 10° 900 EL16-51R2 Red 10° 1100 EL16-51A2 Amber 10° 1100 EL16-51T2 True Green 10° 1100 EL16-51B2 Blue 10° 600 Part Name Color Beam Angle Lux@1m EL16-52W2 White 38° 1000 EL16-52X2 Warm White 38° 500 EL16-52R2 Red 38° 600 EL16-52A2 Amber 38° 600 EL16-52T2 True Green 38° 600 EL16
Edison Opto
Original

d 1275

Abstract: 6 pin 600ohm transformer Model NO. LCT0156 Model Name Part NO. LCT0156-70 Coupling Transformer SIZE EL-16 DIP Total 4PIN Specification and Dimension Electrical characteristic: Item Test Pin Specifications 1 Inductance 1-2 0.5H Min. 2 Impedance 1-2 600ohm±10% 4-3 600ohm LOAD 3 Insertion Loss 1-2 : 4-3 4 Return Loss 5 D.C. Resistance Short Pins Testing Condition Instruments 1KHz / 1Vrms WK-3260B 1KHz / 1.0V WK-3260B 1.5dB Max. 1KHz
LinkCom Manufacturing
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CH-9072A d 1275 6 pin 600ohm transformer 20ohm EL16 transformer LCT-01 EL-16 transformer 1850VAC/60H A/60S

6 pin 600ohm transformer

Abstract: LCT0156-70 Model NO. LCT0156 Model Name Part NO. LCT0156-70 Coupling Transformer SIZE EL-16 DIP 4PIN Specification and Dimension Electrical characteristic: Item 1 Inductance 2 Impedance 3 Test Pin Specifications 1­2 0.5H Min. 1­2 600Ohm±10% 4­3 600Ohm LOAD Insertion Loss 1-2:4-3 4 Return Loss 5 D.C. Resistance Short Pins Testing Condition Instruments 1KHz / 1Vrms WK-3260B 1KHz / 1.0V WK-3260B 1.5dB Max. 1KHz WK-3260B 1-2:4-3
LinkCom Manufacturing
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linkcom 600-ohm hi pot test sheets transformer 1mA transformer EL

Zentech 9052

Abstract: LCT0158 Model NO. LCT0158 Model Name Part NO. LCT0158-70 Coupling Transformer SIZE EL-16 DIP Total 6PIN Specification and Dimension Electrical characteristic: Item 600ohm±10% 43 374ohm Load 12 112ohm±15% 43 118ohm ±15% 1-2to 4-3 Testing Condition Instruments 4 Return Loss 5 Frequency Response WK-3260B 2.2 dB ±0.5 1KHz/1V/Ser. WK-3260B 18dB Min. 200Hz/1V/Ser. WK-3260B 18dB Min. 3.5KHz/1V/Ser. WK-3260B 1-2to 4-3
LinkCom Manufacturing
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Zentech 9052 Zentech WK3260B code 1V transformer REV.A 12to

AN7722

Abstract: 10C40 input buffer, with adjustable level On-board single-ended to differential transformer (1:1) Digital , , with +2.5 V of common-mode voltage, internally provided. The board supports straight AC transformer , DMODE1 DMODE2 PD VIN Transformer Amplifier Select RF-IN VIN+ SPT7722 VIN­ VCM , is a single-ended to differential RF transformer; the second is through an op-amp, which takes a single-ended input and creates a differential analog input signal for the SPT7722. The transformer circuit
Fairchild Semiconductor
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AN7722 EB7722 AD9054 10C40 761-3-R47 901-144-8RFX amphenol AIN

AD10230

Abstract: powerful -bit analog-to-digital converter with a transformer coupled analog input and features low cost, low power, small size , wide-bandwidth, high performance transformer circuit, which drives the A/D converter. A unique termination , 510 510 Driving Encode with EL16 Analog Input The analog input is a differentially ac-coupled high performance 1:1 transformer with an input impedance of 50 . The nominal full scale input is , differentially. The wideband transformer is used to provide the differential analog inputs for applications that
Analog Devices
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AD10235 AD10230 powerful s5x diode 215MSPS 400MH

MINI-CIRCUITS T4-6T

Abstract: dds phase noise application note Distortion Performance May Be Sensitive to Signal Imbalance of AIN(A) and AIN(B) -(i.e. Transformer Coupling , 45 50 Center Frequency (MHz) ­5V 24 TRANSFORMER COUPLING INTO AN ADC ! Use Step-Up Transformer to Reduce Power Requirement From Driver and Bias Center-Tap (if Required) to Optimum Common-Mode , ! ! The Transformer MUST Still Be Driven By Low Noise/Distortion Driver! RF TRANSFORMER , Matching Network Matches RSOURCE with ADC's RLOAD " Use Step Up Transformer for Voltage Gain " For
Analog Devices
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MINI-CIRCUITS T4-6T dds phase noise application note AD9226

S08NB

Abstract: output logic levels are CMOS-compatible. 49.9â"¦ 499â"¦ A wideband transformer, such as the , REFERENCE VINâ'" 0.1ÂuF 05045-029 AGND Figure 28. Driving the ADC with an RF Transformer , ground through 50 â"¦ by R22. The input can be alternatively terminated at the T1 transformer secondary by R21 and R28. T1 is a wideband RF transformer that provides the single-ended-to-differential , transformer, T4, can be placed if desired (remove T1, as shown in Figure 39 and Figure 40). The analog
Analog Devices
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S08NB AD9481 74VCX86 MS-026ACB SU-44 AD9481BSUZ-2501 AD9481-PCB2

DY0 transformer

Abstract: footprint for transformer Analog Input Range Single Ended Analog Input Range Driving Encode with EL16 Analog Input The analog , significantly (~6dB) if the analog input is driven with a single-ended signal. A wideband transformer such as , modes of operation, and is shipped in the following configuration: > 0.5 V p-p. Power to the EL16 is , through 50 by R16. The input can be alternatively terminated at T1 transformer secondary by R13, R14. T1 is a wideband RF transformer providing the single-ended to differential conversion allowing the ADC
Analog Devices
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AD9430 DY0 transformer footprint for transformer DY9 transformer dx3 c36 RZ2 S4,5 dx3 c36 chip 100-L TQFP-100

AD9481

Abstract: S08NB CMOS-compatible. 49.9 499 A wideband transformer, such as the Mini-Circuits ADT1-1WT, can provide the , RF Transformer For dc-coupled applications, the AD8138/AD8139 or AD8351 can serve as a convenient , through 50 by R22. The input can be alternatively terminated at the T1 transformer secondary by R21 and R28. T1 is a wideband RF transformer that provides the single-ended-to-differential conversion, allowing the ADC to be driven differentially, minimizing even-order harmonics. An optional transformer
Analog Devices
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D05045 db3x VCC6PECL6 D5B MSOP10 ANALOG DEVICES TSW-140-08-L-D-RA AD8138 AD9480 TQFP-44 AD9481BSUZ-250

DA472

Abstract: Range Driving Encode with EL16 Analog Input The analog input to the AD9430 is a differential buffer , single-ended signal. A wideband transformer such as Minicircuits ADT1 -1WT can be used to provide the REV. PrE
Analog Devices
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DA472 AD9430BSV 32C/W 25C/W

ad780n

Abstract: AD8138 a source with a low differential source impedance such as a transformer in ac applications , provides single-ended-to-differential conversion, providing for a low cost option to transformer coupling , capacitor C11 and drives a wideband RF transformer T1 (MiniCircuits ADT1-1WT) that converts the single-ended , requirement for the ADC clock inputs for optimum performance. The EL16 outputs are PECL levels and must be , Transformer 1206 1206 1206 15 16 17 18 19 20 21 22 1 1 2 1 2 1 2 3 U1 U2 U3, U4
Analog Devices
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AD9432 ST-52 ad780n AD9432BST-105 AD9432BST-80 MC10EL16 MSPS/105 C00587

sine wave SCHEMATIC

Abstract: is obtained when driving from a source with a low differential source impedance such as a transformer , low-cost option to transformer coupling for ac applications as well. The circuit in Figure 10 was , capacitor C11 and drives a wideband RF transformer T1 (MiniCircuits ADT1-1WT) that converts the single-ended , clock inputs for optimum performance. The EL16 outputs are PECL levels and must be ac-coupled to meet , Connector Resistor Resistor Resistor Resistor RES PAK Transformer DAC Reference (Not Supplied) Inverter (U4
Analog Devices
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sine wave SCHEMATIC NC7SZ04P5

D11-D6

Abstract: PURE SINE WAVE inverter schematic diagram a source with a low differential source impedance such as a transformer in ac applications , provides single-ended-to-differential conversion, providing for a low cost option to transformer coupling , capacitor C11 and drives a wideband RF transformer T1 (MiniCircuits ADT1-1WT) that converts the single-ended , requirement for the ADC clock inputs for optimum performance. The EL16 outputs are PECL levels and must be , Transformer 1206 1206 1206 15 16 17 18 19 20 21 22 1 1 2 1 2 1 2 3 U1 U2 U3, U4
Analog Devices
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D11-D6 PURE SINE WAVE inverter schematic diagram C3619

AD780N

Abstract: transformer coupling for ac applications as well. The circuit in Figure 26 was breadboarded and the measured , ac-coupled by capacitor C11 and drives a wideband RF transformer T1 (MiniCircuits ADT1-1WT) that converts the , times at their outputs-a requirement for the ADC clock inputs for optimum performance. The EL16 outputs , Connector Resistor Resistor Resistor Resistor RES PAK Transformer DAC Reference (Not Supplied) Inverter (U4
Analog Devices
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AD9752
Abstract: required. A wideband transformer, such as the Mini-Circuits® ADT1-1WT, can provide the differential , with an RF Transformer For dc-coupled applications, the AD8138/AD8139 or AD8351 can serve as a , can be alternatively terminated at the T1 transformer secondary by R21 and R28. T1 is a wideband RF transformer that provides the single-ended-to-differential conversion, allows the ADC to be driven differentially, and minimizes even-order harmonics. An optional transformer, T4, can be placed, if desired Analog Devices
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ANSI-644 AD9480BSUZ-2501 AD9480ASUZ-2501 AD9480-LVDS/PCB3 AD9480BSUZ-250 D04619

MS-026-ACB

Abstract: VCC6PECL6 approximately ±300 mV if required. A wideband transformer, such as the Minicircuits ADT1-1WT, can provide the , Transformer For dc-coupled applications, the AD8138 or AD8351 can serve as a convenient ADC driver , alternatively terminated at the T1 transformer secondary by R21 and R28. T1 is a wideband RF transformer , , minimizing even-order harmonics. An optional transformer, T4, can be placed if desired (remove T1, as shown , Resistor Resistor Resistor Transformer AD8351 SN65LVDS1 ADR510 VCC6PECL6 XO-400 AD9480
Analog Devices
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MS-026-ACB AD9480ASUZ-250 MC100LVEL16 VCC6-QAB-250M000 capacitor package 0402 e74 capacitor

e74 capacitor

Abstract: S08NB approximately ±300 mV if required. A wideband transformer, such as the Minicircuits ADT1-1WT, can provide the , Transformer For dc-coupled applications, the AD8138 or AD8351 can serve as a convenient ADC driver , terminated at the T1 transformer secondary by R21 and R28. T1 is a wideband RF transformer providing the , optional transformer, T4, can be placed if desired (remove T1, as shown in Figure 41 and Figure 42). , Resistor Transformer AD8351 SN65LVDS1 ADR510 VCC6PECL6 XO-400 AD9480 MC100LVEL16D ETC1
Analog Devices
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XC23X LVEL16 D7C SOT D9480

E1-E16

Abstract: AD9480 be externally overdriven by approximately ±300 mV if required. A wideband transformer, such as the , 31. Driving the ADC with an RF Transformer For dc-coupled applications, the AD8138/AD8139 or , through 50 by R22. The input can be alternatively terminated at the T1 transformer secondary by R21 and R28. T1 is a wideband RF transformer that provides the single-ended-to-differential conversion, allows the ADC to be driven differentially, and minimizes even-order harmonics. An optional transformer
Analog Devices
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E1-E16 R45X

TQFP-100 footprint

Abstract: VF561 degrade significantly if the analog input is driven with a single-ended signal. A wideband transformer , . The input can be alternatively terminated at T1 transformer secondary by R13 and R14. T1 is a wideband RF transformer providing the single-ended-to-differential conversion, allowing the ADC to be driven differentially, minimizing even order harmonics. An optional second transformer, T2, can be placed following T1 , , fast edge rates needed for optimum performance. J5 input should be > 0.5 V p-p. Power to the EL16 is
Analog Devices
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TQFP-100 footprint VF561 e27e PTMICA04 SO14NB voltage stabilizer schematic diagram 12-BIT C02607
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