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Part Manufacturer Description Datasheet BUY
TIPD131 Texas Instruments Single-Ended Input to Differential Output Conversion Circuit Reference Design visit Texas Instruments
CD4052BPWG4 Texas Instruments CMOS Differential 4-Channel Analog Multiplexer/Demultiplexer with Logic-Level Conversion 16-TSSOP -55 to 125 visit Texas Instruments
7901502EA Texas Instruments CMOS Differential 4-Channel Analog Multiplexer/Demultiplexer with Logic-Level Conversion 16-CDIP -55 to 125 visit Texas Instruments
CD4052BF3A Texas Instruments CMOS Differential 4-Channel Analog Multiplexer/Demultiplexer with Logic-Level Conversion 16-CDIP -55 to 125 visit Texas Instruments
CD4052BF Texas Instruments CMOS Differential 4-Channel Analog Multiplexer/Demultiplexer with Logic-Level Conversion 16-CDIP -55 to 125 visit Texas Instruments
THS4130CDGNR Texas Instruments Fully Differential Input/Output Low Noise Amplifier With Shutdown 8-MSOP-PowerPAD 0 to 70 visit Texas Instruments

single-ended to differential conversion LNA

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2.4 ghz FM RECEIVER CIRCUIT DIAGRAM

Abstract: 2.4 ghz FM TRANSMITTER CIRCUIT DIAGRAM , differential out 30 Leakage conversion gain f1 = fRX ± 40 MHz at LNA input. P1 = ­ 70 dBm. Measured , , differential out, with doubler 30 Leakage conversion gain f1 = fRX ± 80 MHz at LNA input. P1 = ­ 70 , are not permitted. The LNA and downconverter together can be programmed to operate in the PCS or , buffer has open collector differential outputs which should be externally biased to power supply rail , components can be used to match the LNA inputs for the Cellular and PCS bands. The LNAs employ a cascode
Philips Semiconductors
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74571

Abstract: LO buffer. For all devices, the LNA and downconverter mixers are optimized for the 2110MHz to 2170MHz , single-ended or differential operation. These devices operate from a +2.7V to +3.3V single supply and are , MAX2389 MIXER PERFORMANCE (GAIN = LOW) Power Conversion Gain (Note 1) GMXR TA = +25°C TA = -40°C to +85°C , Mixer (MAX2389). Differential input impedance is 200. AC-couple to GND when the LO is driven , Supply Voltage (+2.7V to +3.3V). Capacitively bypass to GND near the IC. RF Input Port for LNA. Requires
Maxim Integrated Products
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74571 MAX2387 MAX2388 MAX2388/MAX2389 MAX2387/MAX2388/MAX2389 MAX2387/ MAX2387/MAX2388

74571

Abstract: 2140M LO buffer. For all devices, the LNA and downconverter mixers are optimized for the 2110MHz to 2170MHz , single-ended or differential operation. These devices operate from a +2.7V to +3.3V single supply and are , MAX2389 MIXER PERFORMANCE (GAIN = LOW) Power Conversion Gain (Note 1) GMXR TA = +25°C TA = -40°C to +85°C , Mixer (MAX2389). Differential input impedance is 200. AC-couple to GND when the LO is driven , Supply Voltage (+2.7V to +3.3V). Capacitively bypass to GND near the IC. RF Input Port for LNA. Requires
Maxim Integrated Products
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2140M 82452 2141MHZ 2110MH 2170MH

82-856

Abstract: 82452 all devices, the LNA and downconverter mixers are optimized for the 2110MHz to 2170MHz band. All , single-ended or differential operation. These devices operate from a +2.7V to +3.3V single supply and are , ) or Mixer (MAX2389). Differential input impedance is 200. AC-couple to GND when the LO is driven , bypass to GND near the IC. 10 LNA_IN 11 GND Ground 12 BIAS LNA/Mixer Bias Pin. For nominal bias, connect 24k ±1% resistor to GND. RF Output Port for LNA. Requires external
Maxim Integrated Products
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MAX2387EGC MAX2388EGC MAX2389EGC 82-856 specification of Ic 8951 38175
Abstract: 2110MHz to 2170MHz band. All devices feature a high-gain mode and a low-gain mode of LNA operation. The , either single-ended or differential operation. These devices operate from a +2.7V to +3.3V single supply , MAX2389 MIXER PERFORMANCE (GAIN = LOW) Power Conversion Gain (Note 1) GMXR TA = +25°C TA = -40°C to +85°C , Mixer (MAX2389). Differential input impedance is 200. AC-couple to GND when the LO is driven , Supply Voltage (+2.7V to +3.3V). Capacitively bypass to GND near the IC. RF Input Port for LNA. Requires Maxim Integrated Products
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MAX2388EVKIT 21-0102G G1233-1 G1233 21-0136I T1233

IC 14511

Abstract: 78621 +2.7V to +3.3V Single-Supply Operation o Mixer NF: 7dB SSB o Cascaded Noise Figure: 2.3dB o LNA , all devices, the LNA and downconverter mixers are optimized for the 2110MHz to 2170MHz band. All , single-ended or differential operation. These devices operate from a +2.7V to +3.3V single supply and are , TA = -40°C to +85°C (Note 2) 21.9 LNA PERFORMANCE: LOW-GAIN MODE (GAIN = HIGH) RF Frequency , Power Conversion Gain GMXR TA = +25°C 8.5 TA = -40°C to +85°C (Note 2) 7.5 10 11.5
Maxim Integrated Products
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IC 14511 78621 70733 8179 LM 3717 93176

Sawtek filter

Abstract: uhf receiver . The LNA achieves broadband impedance match to 50 and low noise figure through internal feedback , is greater than 10dB over the entire 1MHz to 1500MHz range. LNA gain slopes from 17dB at 1MHz to , greater than 30dB over the 1MHz to 1500MHz range for differential IF interface. Mixer RF to IF isolation is typically greater than 25dB over the 400MHz to 1500MHz range. Mixer conversion gain is dependent , transformer or directly to a differential SAW IF filter. Alternately, one collector may be tied directly to
RF Micro Devices
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RF2411 Sawtek filter uhf receiver TA0026 1500MH 500MH

RF2411

Abstract: RF transistor gain 20dB 1 /1$ 'HVFULSWLRQ The LNA achieves broadband impedance match to 50 and low noise figure through , output return loss is greater than 10dB over the entire 1MHz to 1500MHz range. LNA gain slopes from , of LNA noise figure, gain, and IIP3 on power supply voltage at 880MHz. Gain can be seen to decrease , isolation is typically greater than 30dB over the 1MHz to 1500MHz range for differential IF interface , interface can be through a balun transformer or directly to a differential SAW IF filter. Alternately, one
RF Micro Devices
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RF transistor gain 20dB SSB Receiver

2.4 ghz FM TRANSMITTER CIRCUIT DIAGRAM

Abstract: pcs-2 , differential out CDMA FM (Tx) LO Output to LO Input Isolation Leakage conversion gain 17 10 dB dB , Differential (Tx) LO output buffer (can be switched on or off) · Low voltage operation down to 2.7 volts · , to be active. Modes from unlisted combinations of logic pins are not permitted. The LNA and , mixer, ­ cellular CDMA mixer, ­ PCS LO frequency doubler. The LNA can be set to four different gain , also possible to independently switch off the LNAs and keep the mixers on, as shown in Table 3. LNA
Philips Semiconductors
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SA9503 2.4 ghz FM TRANSMITTER CIRCUIT DIAGRAM pcs-2 BCC32 SA9502

MAX2411AEEI

Abstract: MAX2406 +2.7V to +5.5V Supply o 3.2dB Combined Receiver Noise Figure: 2.4dB (LNA) 9.2dB (mixer) o Flexible , to share the same IF filter. MAX2411A Low-Cost RF Up/Downconverter with LNA and PA Driver , RECEIVE MIXER (RXEN = high) Conversion Gain (Note 2) TA = +25°C 8.5 TA = -40°C to +85°C 7.5 , RF Input to LNA. AC couple to this pin. At 1.9GHz, LNAIN can be easily matched to 50 with one , . For single-ended operation, connect LO directly to GND. If a differential LO signal is available, AC
Maxim Integrated Products
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MAX2410 MAX2406 MAX2411AEEI DECT RF Transceiver 1.9 ghz MAX2510/MAX2511 MAX2411AE 400MH

42EV

Abstract: component count by allowing the transmit and receive paths to share the same IF filter. The LNA has a 2.4dB , measurements made directly to pin (no matching network), T A = +25°C, unless otherwise noted.) LNA OUTPUT 1dB , . Connect GND to the PC board ground plane with minimal inductance. RF Input to LNA. AC couple to this pin , . For single-ended operation, connect LO directly to GND. If a differential LO signal is available, AC , capacitor to GND. Differential IF Port of Tx and Rx Mixers, Noninverting Side. In Rx mode, this output is an
Maxim Integrated Products
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42EV MAX2411

3GHz Low-Noise Amplifier

Abstract: with minimal inductance. RF Input to the LNA. At 1.9GHz, LNAIN can be easily matched to 50 with one external shunt 1pF capacitor. AC couple to this pin. See the LNA Input Impedance vs. Frequency plot in the , , connect LO directly to GND. If a differential LO signal is available, AC couple the inverted LO signal to this pin. Noninverting Side of Downconverter's Differential Open-Collector IF Output. Pull IF up to VCC , network may be required to match this pin to an external filter. Consult the LNA Output Impedance vs
Maxim Integrated Products
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3GHz Low-Noise Amplifier PWT1900/DCT1900 DCS1800/PCS1900
Abstract: ) -12.5dBm Combined Receiver Input IP3: -9.5dBm (LNA) 4.5dBm (mixer) LO Buffer +2.7V to +S.5V Single-Supply , LNA Input IP3 LNA Output IdB Compression Mixer Conversion Gain (Note 1) Mixer Noise Figure Mixer Input , 2 NAME GND FUNCTION Ground. Connect to ground plane with minimal inductance. RF Input to the LNA. At , Local-Oscillator Input Port. For single-ended LO operation, connect LO directly to GND. If a differential LO signal , 's Differential Open-Collector IF Output. Pull IF up to Vcc with an inductor. This inductor can be part of the -
OCR Scan

microwave transceiver 3ghz

Abstract: if amplifier specification for 900MHz transceiver differential IF port that can be used in a single-ended configuration by tying the unused side to VCC. The LO , Combined Receiver Input IP3: -9.5dBm (LNA) 4.5dBm (mixer) o LO Buffer o +2.7V to +5.5V Single-Supply , TA = TMIN to TMAX 12.2 LNA Noise Figure LNA Input IP3 dB 2.5 7.4 TA = TMIN to TMAX dBm -5.6 TA = +25°C dB -9.5 (Note 2) LNA Output 1dB Compression Mixer Conversion Gain , directly to GND. If a differential LO signal is available, AC couple the inverted LO signal to this pin
Maxim Integrated Products
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microwave transceiver 3ghz if amplifier specification for 900MHz transceiver MAX2406EEP MAX2406EVKIT single-ended to differential conversion LNA

LT5500

Abstract: LT5500EGN shown in Figure 4 can be used to perform differential to single-ended conversion. For best LO and RF , amplifier (LNA), a Mixer and an LO buffer. The IC is designed to operate over a power supply voltage range from 1.8V to 5.25V. 1.8V to 5.25V Supply Dual LNA Gain Setting: +13.5dB/­14dB at 2.5GHz , Current: 2µA 24-Lead Narrow SSOP Package The LNA can be set to either high gain or low gain mode. At , LNA_OUT MIXER CONVERSION GAIN (dB) RF INPUT 1µF LNA Gain (High Gain Mode) and Mixer
Linear Technology
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LT5500 LTC5507 LT5500EGN LT5502 LT5503 LT5504 LTC5505 LT5506/LTC5446 LTC5508 300MH LTC5509
Abstract: shown in Figure 4 can be used to perform differential to single-ended conversion. For best LO and RF , noise amplifier (LNA), a Mixer and an LO buffer. The IC is designed to operate over a power supply voltage range from 1.8V to 5.25V. 1.8V to 5.25V Supply Dual LNA Gain Setting: +13.5dB/â'"14dB at , Low Shutdown Current: 2µA 24-Lead Narrow SSOP Package The LNA can be set to either high gain or , °C, 1.8GHz 19 CONVERSION GAIN (dB) LNA Noise Figure vs Supply Voltage (High Gain Mode) LNA IIP3 Linear Technology
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LT5511 LT5512 LT5515 LT5516 LT5522 600MH

spectrum analyzer

Abstract: block diagram for RF transmitter AND RECEIVER differential inputs and outputs to single-ended inputs and outputs. Please note that the Baluns are used only , directly after the antenna and a band-select filter. The purpose of the LNA is to amplify the desired , LNA is a common emitter amplifier, designed to operate on a single 3.75 volt supply. The LNA has two , mainly to optimize the turn-on time. Figure 4. Low-Band LNA Input Configuration Low-Band LNA Output , also matching the LNA output impedance to the Surface Acoustic Wave (SAW) filter input impedance. A
Texas Instruments
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spectrum analyzer block diagram for RF transmitter AND RECEIVER frequency doubler balun high frequency mixer rf receivers x band receiver TRF1500 SWRA004A
Abstract: LNA Multi-channel, single-ended to differential conversion GENERAL DESCRIPTION KEY PRODUCT FEATURES The SX1701 is an integrated LNA operating over a wide frequency range from 40 MHz to 2.5 GHz , single-ended to differential conversion. Three independent output channels are available and the gain of , .10 Single-Ended Input to Dual Differential Outputs with Loop-through Single-Ended Output , stages. The first stage is common to all channels and performs the single-ended to differential Semtech
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MLPQ-16 QFN-16 SX1701I085TRT

single-ended to differential conversion

Abstract: SX1701 LNA Multi-channel, single-ended to differential conversion GENERAL DESCRIPTION The SX1701B is an integrated LNA operating over a wide frequency range from 40 MHz to 2.5 GHz. It is optimized for high OIP2 and OIP3 with minimum current consumption. It also performs a single-ended to differential conversion , channels and performs the single-ended to differential conversion. The second stage, duplicated for both , .10 Single-Ended Input to 1 Differential Outputs with Loop-through Single-Ended OUTPUT
Semtech
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single-ended to differential conversion SX1701BI085TRT
Abstract: LNA Multi-channel, single-ended to differential conversion GENERAL DESCRIPTION KEY PRODUCT FEATURES The SX1701B is an integrated LNA operating over a wide frequency range from 40 MHz to 2.5 GHz , single-ended to differential conversion. Two independent output channels are available and the gain of each , .10 Single-Ended Input to 1 Differential Outputs with Loop-through Single-Ended OUTPUT , differential conversion. The second stage, duplicated for both channels, is implemented as two cascaded stages Semtech
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