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UPC2745T

NEC
Part Number UPC2745T
Manufacturer NEC
Description 3 V/ 2.7 GHz Si MMIC WIDEBAND AMPLIFIER
Published Apr 17, 2005
Detailed Description 3 V, 2.7 GHz Si MMIC WIDEBAND AMPLIFIER FEATURES • WIDE FREQUENCY RESPONSE: 2.7 GHz • LOW VOLTAGE OPERATION: 3 V NOMINAL...
Datasheet PDF File UPC2745T PDF File

UPC2745T
UPC2745T

Overview
3 V, 2.
7 GHz Si MMIC WIDEBAND AMPLIFIER FEATURES • WIDE FREQUENCY RESPONSE: 2.
7 GHz • LOW VOLTAGE OPERATION: 3 V NOMINAL (1.
8 MIN) • LOW POWER CONSUMPTION: 22.
5 mW TYP • SUPER SMALL PACKAGE • TAPE AND REEL PACKAGING OPTION AVAILABLE Gain, GS (dB) GS 12 UPC2745T NOISE FIGURE AND GAIN vs.
FREQUENCY VCC = 3.
0 V, ICC = 7.
5 mA 7.
0 DESCRIPTION The UPC2745T is a Silicon Monolithic integrated circuit which is manufactured using the NESAT III process.
The NESAT III process produces transistors with fT approaching 20 GHz.
This device is suitable as a buffer amplifier for cellular and cordless telephone applications.
Operating on a 3 volt supply (1.
8 volt minimum) this IC is ideally suited for hand-held, portable designs.
NEC's stringent quality assurance and test procedures ensure the highest reliability and performance.
10 6.
5 8 6.
0 6 NF 5.
5 0 1000 2000 3000 ELECTRICAL CHARACTERISTICS (TA = 25°C, ZL = ZS = 50 Ω) PART NUMBER PACKAGE OUTLINE PARAMETERS AND CONDITIONS Circuit Current (no signal) VCC = 3.
0 V VCC = 1.
8 V Small Signal Gain, f = 500 MHz, VCC = 3.
0 V f = 1000 MHz, VCC = 3.
0 V f = 2000 MHz, VCC = 3.
0 V f = 500 MHz, VCC = 1.
8 V Upper Limit Operating Frequency, VCC = 3.
0 V VCC = 1.
8 V Saturated Output Power, f = 500 MHz, VCC = 3.
0 V f = 1000 MHz, VCC = 3.
0 V f = 2000 MHz, VCC = 3.
0 V f = 500 MHz, VCC = 1.
8 V Noise Figure, f = 500 MHz, VCC = 3.
0 V f = 1000 MHz, VCC = 3.
0 V f = 2000 MHz, VCC = 3.
0 V f = 500 MHz, VCC = 1.
8 V Input Return Loss, f = 500 MHz, VCC = 3.
0 V f = 1000 MHz, VCC = 3.
0 V f = 2000 MHz, VCC = 3.
0 V f = 500 MHz, VCC = 1.
8 V Output Return Loss, f = 500 MHz, VCC = 3.
0 V f = 1000 MHz, VCC = 3.
0 V f = 2000 MHz, VCC = 3.
0 V f = 500 MHz, VCC = 1.
8 V Isolation, f = 500 MHz, VCC = 3.
0 V f = 1000 MHz, VCC = 3.
0 V f = 2000 MHz, VCC = 3.
0 V f = 500 MHz, VCC = 1.
8 V SSB Output Third Order Intercept, f1 = 500 MHz, f2 = 510 MHz, VCC = 3.
0 V f1 = 1000 MHz, f2 = 1010 MHz, VCC = 3.
0 V f1 = 500 MHz, f2 = 502 MHz, VCC = 1.
8 V Thermal Resistance (Junction t...


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