µPA805T MICROWAVE NOISE AMPLIFIER SILICON EPITAXIAL TRANSISTOR (W
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SILICON TRANSISTOR
µPA805T
MICROWAVE NOISE AMPLIFIER SILICON EPITAXIAL TRANSISTOR (WITH BUILT-IN ELEMENTS) MINI MOLD
FEATURES
Noise, High Gain Operable Voltage Small Feed-back Capacitance TYP. Built-in Transistors 2SC4958)
PACKAGE DRAWINGS
(Unit:
2.1±0.1 1.25±0.1
0.65 0.65
2.0±0.2
ORDERING INFORMATION
PART NUMBER QUANTITY Loose products PCS) PACKING STYLE Embossed tape wide. Base), Base), Emitter) face perforation side tape.
0.9±0.1
µPA805T
µPA805T-T1
Taping products KPCS/Reel)
Remark require evaluation sample, please contact Sales Representative. (Unit sample quantity pcs.)
CONFIGURATION (Top View)
ABSOLUTE MAXIMUM RATINGS
PARAMETER Collector Base Voltage Collector Emitter Voltage Emitter Base Voltage Collector Current Total Power Dissipation SYMBOL VCBO VCEO VEBO RATING element elements Note +150 UNIT
0~0.1
CONNECTIONS Collector (Q1) Emitter (Q2) Emitter (Q1) Base (Q2) Collector (Q2) Base (Q1)
Junction Temperature Storage Temperature
Tstg
Note must exceeded element.
This device uses radio frequency technology. Take precautions protect from excessive input levels such static electricity. information this document subject change without notice. Document ID-3639 (O.D. ID-9146) Date Published April 1995 Printed Japan
0.15
+0.1
+0.1
1995
µPA805T
ELECTRICAL CHARACTERISTICS
PARAMETER Collector Cutoff Current Emitter Cutoff Current Current Gain Gain Bandwidth Product Feed-back Capacitance Insertion Power Gain Noise Figure Ratio SYMBOL ICBO IEBO |S21|2 hFE1/hFE2 CONDITION mANote 0.85 MIN. TYP. MAX. UNIT
MHzNote
smaller value among hFE1 larger value among hFE2
Notes Pulse Measurement: Duty cycle Measured with 3-pin bridge, emitter case should connected guard bridge.
CLASSIFICATION
Rank Marking Value
TYPICAL CHARACTERISTICS
TOTAL POWER DISSIPATION AMBIENT TEMPERATURE Total Power Dissipation (mW) Free Collector Current (mA) COLLECTOR CURRENT BASE EMITTER VOLTAGE
Elements Total Element
Base Emitter Voltage CURRENT GAIN COLLECTOR CURRENT
Ambient Temperature (°C) COLLECTOR CURRENT COLLECTOR EMITTER VOLTAGE
Collector Current (mA)
Current Gain
Collector Emitter Voltage
Collector Current (mA)
µPA805T
GAIN BANDWIDTH PRODUCT COLLECTOR CURRENT Gain Bandwidth Product (GHz) Insertion Power Gain S21e (dB) INSERTION GAIN COLLECTOR CURRENT
Collector Current (mA)
Collector Current (mA)
NOISE FIGURE COLLECTOR CURRENT Feed-back Capacitance (pF) Noise Figure (dB)
FEED-BACK CAPACITANCE COLLECTOR BASE VOLTAGE
Collector Current (mA)
Collector Base Voltage
µPA805T
S-PARAMETERS
0.200 0.200 0.600 0.800 1.000 1.200 1.400 1.600 1.800 2.000 2.200 2.400 2.600 2.800 3.000 0.9410 0.9280 0.8670 0.8150 0.7280 0.6700 0.5970 0.5430 0.5040 0.4350 0.3920 0.3560 0.3240 0.3120 0.2450 -9.3 -17.7 -26.0 -33.6 -41.5 -47.3 -51.7 -56.3 -60.7 -64.4 -69.4 -71.5 -81.1 -76.7 -85.1 3.3070 3.1860 3.0130 2.8740 2.6360 2.5360 2.3840 2.2170 2.0650 2.0420 1.9690 1.8470 1.7690 1.7240 1.6690 167.3 156.0 144.9 134.6 124.4 115.5 107.7 100.7 95.0 88.3 82.0 76.6 71.1 68.1 63.2 0.0330 0.0650 0.0930 0.1160 0.1330 0.1480 0.1710 0.1820 0.1990 0.2040 0.2270 0.2320 0.2420 0.2520 0.2670 82.8 78.5 71.1 67.0 59.7 59.1 53.6 52.0 49.8 51.6 48.3 50.1 46.4 45.1 45.3 0.9900 0.9540 0.9250 0.8730 0.8250 0.7920 0.7640 0.7180 0.6810 0.6600 0.6210 0.6040 0.5840 0.5660 0.5410 -6.8 -13.7 -19.5 -24.9 -29.5 -33.6 -36.6 -39.9 -42.4 -46.9 -50.1 -51.8 -53.6 -57.6 -58.3
0.200 0.400 0.600 0.800 1.000 1.200 1.400 1.600 1.800 2.000 2.200 2.400 2.600 2.800 3.000 0.8480 0.7640 0.6470 0.5600 0.4650 0.4050 0.3470 0.3040 0.2790 0.2260 0.2090 0.1820 0.1600 0.1650 0.1210 -15.9 -27.6 -37.3 -44.1 -49.4 -51.9 -53.4 -55.0 -55.7 -53.6 -57.9 -53.8 -67.3 -58.5 -51.3 7.7420 6.8190 5.8070 5.0060 4.2790 3.8350 3.4290 3.0820 2.7740 2.6370 2.4900 2.2890 2.1710 2.0820 2.0030 158.5 141.1 127.1 116.0 106.6 98.8 92.4 86.6 82.3 77.1 72.2 67.9 63.7 61.3 57.3 0.0320 0.0560 0.0770 0.1000 0.1110 0.1250 0.1340 0.1570 0.1840 0.1910 0.2090 0.2260 0.2280 0.2580 0.2670 79.4 68.2 66.9 64.5 64.1 62.2 62.6 60.9 60.8 57.5 59.4 58.1 53.4 57.0 52.6 0.9640 0.8730 0.7950 0.7140 0.6540 0.6250 0.5850 0.5530 0.5450 0.5140 0.5020 0.4850 0.4680 0.4650 0.4490 -11.3 -20.5 -26.1 -30.2 -33.0 -34.4 -36.3 -38.2 -39.3 -42.2 -45.3 -46.1 -47.9 -51.6 -51.4
0.200 0.400 0.600 0.800 1.000 1.200 1.400 1.600 1.800 2.000 2.200 2.400 2.600 2.800 3.000 0.7750 0.6530 0.5270 0.4470 0.3590 0.3140 0.2790 0.2460 0.2190 0.1780 0.1650 0.1490 0.1370 0.1320 0.1030 -19.9 -32.4 -39.8 -45.7 -49.6 -50.3 -48.1 -46.9 -46.8 -43.6 -44.7 -37.6 -50.0 -47.6 -33.7 10.2330 8.4080 6.7610 5.5980 4.6700 4.1180 3.6300 3.2460 2.8850 2.7470 2.5810 2.3820 2.2440 2.1380 2.0440 153.0 133.2 119.0 108.5 100.0 92.7 87.1 82.1 78.1 73.7 68.8 64.8 61.4 59.0 55.3 0.0290 0.0560 0.0730 0.0880 0.1110 0.1230 0.1400 0.1540 0.1780 0.1940 0.2010 0.2240 0.2410 0.2530 0.2650 78.0 66.1 70.0 67.6 66.9 67.5 66.8 64.1 62.0 62.9 62.0 60.1 60.9 57.7 55.3 0.9310 0.8150 0.7170 0.6390 0.5950 0.5650 0.5450 0.5190 0.5210 0.5000 0.4780 0.4550 0.4710 0.4490 0.4380 -14.4 -23.3 -27.3 -30.3 -31.2 -32.4 -34.4 -35.9 -37.0 -38.9 -43.1 -43.1 -43.9 -47.9 -47.0
µPA805T
[MEMO]
µPA805T
part this document copied reproduced form means without prior written consent Corporation. Corporation assumes responsibility errors which appear this document. Corporation does assume liability infringement patents, copyrights other intellectual property rights third parties arising from device described herein other liability arising from such device. license, either express, implied otherwise, granted under patents, copyrights other intellectual property rights Corporation others. While Corporation been making continuous effort enhance reliability semiconductor devices, possibility defects cannot eliminated entirely. minimize risks damage injury persons property arising from defect semiconductor device, customer must incorporate sufficient safety measures design, such redundancy, fire-containment, anti-failure features. devices classified into following three quality grades: "Standard", "Special", "Specific". Specific quality grade applies only devices developed based customer designated "quality assurance program" specific application. recommended applications device depend quality grade, indicated below. Customers must check quality grade each device before using particular application. Standard: Computers, office equipment, communications equipment, test measurement equipment, audio visual equipment, home electronic appliances, machine tools, personal electronic equipment industrial robots Special: Transportation equipment (automobiles, trains, ships, etc.), traffic control systems, anti-disaster systems, anti-crime systems, safety equipment medical equipment (not specifically designed life support) Specific: Aircrafts, aerospace equipment, submersible repeaters, nuclear reactor control systems, life support systems medical equipment life support, etc. quality grade devices "Standard" unless otherwise specified NEC's Data Sheets Data Books. customers intend devices applications other than those specified Standard quality grade, they should contact Sales Representative advance. Anti-radioactive design implemented this product.
94.11
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