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ZL2005ALNFT Intersil Corporation Digital-DC™ Integrated Power Management and Conversion IC; QFN36; Temp Range: -40° to 85°C visit Intersil Buy
ZL2005ALNFT1 Intersil Corporation Digital-DC™ Integrated Power Management and Conversion IC; QFN36; Temp Range: -40° to 85°C visit Intersil Buy
TIPD131 Texas Instruments Single-Ended Input to Differential Output Conversion Circuit Reference Design visit Texas Instruments
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PMP5660 Texas Instruments Multi-Transformer 2x25V?50V@700mA, 390V@192mA visit Texas Instruments

Transmission-Line Conversion Transformers

Catalog Datasheet MFG & Type PDF Document Tags

BLF578

Abstract: AN10858 . Marchand, "Transmission-line conversion transformers," Electronics, vol. 17, pp. 142-146, 1944. [5 , uses planar impedance transformers, rather than the coaxial cable transmission line transformers that , structures are not able to handle as much average power as broadband transmission line transformers, they , investigate the use of planar impedance transformers as an alternative to coaxial transmission line transformers. 2.1 Planar balun Push-pull operation has several key benefits for sub-GHz power amplifier
NXP Semiconductors
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Abstract: transmission from primary dot port to secondary dot port and secondary port. Most balun transformers are , Broadband Transformers There are two kinds of broadband transformers. One is known as a conventional type, which has separate primary and secondary windings, as do power and audio transformers. The other type , efficient of the two. Transmission-line transformers are wound with twisted or parallel windings and , transformers permit you to obtain any transformation ratio you need. Applications of Balun Transformers In Token Electronics
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21 SMD transformer

Abstract: audio balun smd band transformers, transistors and for impedance conversion. Application of SMD choke coils specific , mixers, and as broad band transformers, transistors and for impedance conversion. Token RF Balun , transformers, transistors and for impedance conversion. Token will also produce devices outside these , TOKEN SMD BALUN TRANSFORMERS Token Electronics Industry Co., Ltd. Taiwan: No. 137, Sec , - 01 RF Balun & SMD EMI Filters TCB4F Series - SMD Common Mode Balun Transformers
Token Electronics
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FETs in Balanced Mixers Ed Oxner

Abstract: ecom-2989 and large-signal handling capability. Additionally, the active mixer offers improved conversion , High Power Handling High Burn-out Level High L.O. Drive Interface to I.F. Conversion Loss JFET Low Noise Figure Conversion Gain Excellent IM products Square Law Characteristic Excellent Overload High Burn-out Level Optimum Conversion Gain not possible at Optimum Square ' Law Response Level High L.O. Power , balanced mixers. A secondary advantage derives from available conversion gain, so that the FET mixer
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OCR Scan

567 tone

Abstract: balun diode mixer Output Return Loss With External Matching, ZO = 50 17 dB Conversion Gain 0 dB LO , Conversion Gain ­0.7 dB LO Suppression 42 dBc Input 1dB Compression 5.2 dBm 15.5 , Conversion Gain and LO Suppression vs Output Frequency 60 0 TA = ­40°C 0 TA = ­40°C ­30 , °C GAIN TA = 85°C ­4 Conversion Gain and IIP3 vs LO Power IIP3 TA = 25°C 0 ­1 ­3 , °C Conversion Gain vs IF Input Power (Single Input Tone) GAIN (dB) 10 RF Output Power and 2nd Order
Linear Technology
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5511

Abstract: 169 MHz RF CHIP Output Return Loss With External Matching, ZO = 50 17 dB Conversion Gain 0 dB LO , Conversion Gain ­0.7 dB LO Suppression 42 dBc Input 1dB Compression 5.2 dBm 15.5 , Conversion Gain and LO Suppression vs Output Frequency 60 0 TA = ­40°C 0 TA = ­40°C ­30 , °C GAIN TA = 85°C ­4 Conversion Gain and IIP3 vs LO Power IIP3 TA = 25°C 0 ­1 ­3 , °C Conversion Gain vs IF Input Power (Single Input Tone) GAIN (dB) 10 RF Output Power and 2nd Order
Linear Technology
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LT5507

Abstract: LT5507 s-parameters Output Return Loss With External Matching, ZO = 50 17 dB Conversion Gain 0 LO to RF , Conversion Gain ­0.7 dB LO to RF Leakage ­47 dBm Input 1dB Compression 5.2 dBm , ­40°C ­10 10 POUT TA = 25°C Conversion Gain vs IF Input Power (Single Input Tone , INPUT POWER (dBm) 5511 G02 Conversion Gain and IIP3 vs LO Power IIP3 TA = 85°C ­3 IM2 , IIP3 and IIP2 vs Output Frequency NOISE FIGURE (dB) Conversion Gain and LO to RF Leakage vs
Linear Technology
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Abstract: . Test Circuit A is DC1464A, a 2-port demonstration circuit with input/output balun transformers to , balun transformers limit the high and low frequency performance of the LTC6412 but allow for simple , frequency limitations imposed by the balun transformers and associated circuitry. A matching calibration , , then a suitable balun is required to convert to a differential input signal. The passive conversion , differential-to-single-ended conversion. DC-Coupled Operation The LTC6412 is intended for AC-coupled operation. The Linear Technology
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800MH 240MH 500MH LT5557 LTC6410-6 LTC6400/LTC6401/LTC6416
Abstract: Conversion Gain 0 LO to RF Leakage â'"46 dBm dB Input 1dB Compression 5.9 dBm , Loss With External Matching, ZO = 50â"¦ 11.5 dB Conversion Gain â'"0.7 dB LO to RF , '"40°C â'"10 10 POUT TA = 25°C Conversion Gain vs IF Input Power (Single Input Tone) POUT , ) 5511 G02 Conversion Gain and IIP3 vs LO Power IIP3 TA = 85°C â'"3 IM2 5511 G01 8 , ) Conversion Gain and LO to RF Leakage vs Output Frequency TA = 25°C TA = â'"40°C IF = 50MHz, LO Linear Technology
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LT5511 3000MH 950MH 1900MH LT5500 LT5502

15 Pin VGA to AV Connector pin details

Abstract: LTC6412 balun transformers to allow for direct connection to a 2-port network analyzer or other singleended 50 test system. The balun transformers limit the high and low frequency performance of the LTC6412 but , beyond the frequency limitations imposed by the balun transformers and associated circuitry. A matching , , then a suitable balun is required to convert to a differential input signal. The passive conversion , differential-to-single-ended conversion. DC-Coupled Operation The LTC6412 is intended for AC-coupled operation. The
Linear Technology
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15 Pin VGA to AV Connector pin details LTC6416 MABAES0061 LTC2208 LTC6403-1 LTC6404-1 LTC6404-2 LTC6406 LT6411 LTC2630-10

15 Pin VGA to AV Connector pin details

Abstract: flux transformer balun transformers to allow for direct connection to a 2-port network analyzer or other singleended 50 test system. The balun transformers limit the high and low frequency performance of the LTC6412 but , limitations imposed by the balun transformers and associated circuitry. A matching calibration set , required to convert to a differential input signal. The passive conversion from 50 single-ended to 50 , circuit produces an impedance transformation along with the differential-to-single-ended conversion. DC
Linear Technology
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flux transformer vga connector 16 pin IDC schematic diagram vga to av L6567 Transmission-Line Conversion Transformers LTC2640-10 LTC2641-12 LTC2642-12

CY9689

Abstract: AM7968 TAXITM to Cypress CY7C9689 HOTLink® Transceiver Conversion Series: 2. Serial Interface , preferred copper attachment method is transformer coupling. Transformers have multiple advantages in , Balanced-to-unbalanced conversion The transformer is similar to a capacitor in that it also has passband , transformer is used for balanced-to-unbalanced conversion, while the second transformer provides unbalanced-to-balanced conversion. Note that the change in media impedance requires corresponding changes in the
Cypress Semiconductor
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AM7968 AM7969 CY9689 CY7B923 AMD 700 chipset ZO150

Single Phase Energy Meter

Abstract: energy meter circuit diagram are used to select one of four possible frequencies for the digital-to-frequency conversion. This , of the large potential difference between the phase and neutral, two CTs (current transformers) must , conversion. The output frequency or pulse rate is related to the input voltage signals by the following , digital-to-frequency conversion. With much less averaging of the real power signal, the CF output is much more
Shanghai Belling
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Single Phase Energy Meter energy meter circuit diagram energy meter single phase Analog Devices Single Phase Energy Meter Analog Single Phase Energy Meter ph meter IC BL6506 PIN15 1DIP20 2SSOP20

energy meter circuit diagram

Abstract: BL0921 possible frequencies for the digital-to-frequency conversion. This offers the designer greater , (current transformers) must be used to provide the isolation. The CT turns ratio and burden resistor (Rb , conversion. The output frequency or pulse rate is related to the input voltage signals by the following , the digital-to-frequency conversion. With much less averaging of the real power signal, the CF output
Shanghai Belling
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BL0921 Electronic energy meter circuit diagram single phase ups circuit diagram ENL16 Analog Devices Single Phase analog Energy Meter energy meter circuit PIN12

single phase electronic energy meter block diagram

Abstract: static energy meter circuit diagram digital-to-frequency conversion. This offers the designer greater flexibility when designing the energy meter. 15 , neutral, two CTs (current transformers) must be used to provide the isolation. The CT turns ratio and , digital-to-frequency conversion. The output frequency or pulse rate is related to the input voltage signals by the , conversion. With much less averaging of the real power signal, the CF output is much more responsive to
Shanghai Belling
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single phase electronic energy meter block diagram static energy meter circuit diagram BL6501 single phase energy meter connection diagram energy meter ic BL6501A PIN19

BL0951

Abstract: Single Phase Energy Meter are used to select one of four possible frequencies for the digital-to-frequency conversion. This , (current transformers) must be used to provide the isolation. The CT turns ratio and burden resistor (Rb , conversion. The output frequency or pulse rate is related to the input voltage signals by the following , conversion. With much less averaging of the real power signal, the CF output is much more responsive to
Shanghai Belling
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BL0951 single phase energy meter circuit diagram 3 phase energy meter circuit diagram
Abstract: used to select one of four possible frequencies for the digital-to-frequency conversion. This offers , large potential difference between the phase and neutral, two CTs (current transformers) must be used , average of the real power signal is implicit to the digital-to-frequency conversion. The output frequency , digital-to-frequency conversion. With much less averaging of the real power signal, the CF output is much more Shanghai Belling
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BL6502 DIP20 SSOP20

energy meter circuit diagram

Abstract: Single Phase Energy Meter of four possible frequencies for the digital-to-frequency conversion. This offers the designer , and neutral, two CTs (current transformers) must be used to provide the isolation. The CT turns ratio , the real power signal is implicit to the digital-to-frequency conversion. The output frequency or , . Hence less averaging is carried out in the digital-to-frequency conversion. With much less averaging of
Shanghai Belling
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BL6502A SSOP24 SINGLE PHASE DC DRIVE energy meter circuit diagram 3 phase ph meter circuit block diagram of power meter digital frequency meter circuit diagram

CY7C9689

Abstract: CY7C9689A AN35159 TAXITM to Cypress CY7C9689 HOTLink® Transceiver Conversion Series: 2 Serial Interface , TAXITM to Cypress CY7C9689 HOtLink® Transceiver Conversion Series: 2 Serial Interface Figure 1. TAXI , Conversion Series: 2 Serial Interface Figure 2. Single-Ended Transmission Line Model on the CY7C9689 , . 001-35159 Rev. *A 3 TAXITM to Cypress CY7C9689 HOtLink® Transceiver Conversion Series: 2 Serial , Cypress CY7C9689 HOtLink® Transceiver Conversion Series: 2 Serial Interface signal swings in the input
Cypress Semiconductor
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CY7C9689A AN1162 transistor ecn 055 Driving Copper Cables with HOTLink

2sC 548 B

Abstract: KAD2710C-21Q68 222 248 199 224 163 185 mW AC SPECIFICATIONS Maximum Conversion Rate fS MAX Minimum Conversion Rate fS MIN Differential Nonlinearity 275 SNR 105 50 MSPS 50 , start of a conversion and the data being available on the digital outputs. The VREF pin is the , inputs for the analog input and clock signals. Locate transformers, drivers and terminations as close , sampling switch to open, at which time the signal is held for conversion. Aperture Jitter is the RMS
Intersil
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KAD2710C 2sC 548 B KAD2710C-21Q68 KAD2710C-27Q68 KAD2708L-27 KAD2708L-35 275/210/170/105MSPS 600MH 275MSPS 138MH 350MSPS
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