PartNumber | HMC263-SX | HMC263LP4E | HMC263 |
Description | RF Amplifier I.C., 25-32 GHz LNA Die | RF Amplifier LNA, 20-36GHz | RF Amplifier lo Noise amp Chip, 24 - 36 GHz |
Manufacturer | Analog Devices Inc. | Qorvo | MACOM |
Product Category | RF Amplifier | RF Amplifier | RF Amplifier |
RoHS | Y | Y | Y |
Series | HMC590G | - | - |
Packaging | Gel Pack | Reel | Reel |
Brand | Analog Devices | Qorvo | MACOM |
Number of Channels | 1 Channel | - | - |
Product Type | RF Amplifier | RF Amplifier | RF Amplifier |
Factory Pack Quantity | 2 | 100 | 3000 |
Subcategory | Wireless & RF Integrated Circuits | Wireless & RF Integrated Circuits | Wireless & RF Integrated Circuits |
Moisture Sensitive | - | Yes | - |
Part # Aliases | - | RF5110G | - |
Mounting Style | - | - | SMD/SMT |
Package / Case | - | - | PQFN-24 |
Type | - | - | General Purpose Amplifier |
Operating Frequency | - | - | 400 MHz to 2.7 GHz |
P1dB Compression Point | - | - | 28 dBm |
Gain | - | - | 25.5 dB |
Operating Supply Voltage | - | - | 3 V |
NF Noise Figure | - | - | 3 dB |
Test Frequency | - | - | 2.14 GHz |
OIP3 Third Order Intercept | - | - | 42 dBm |
Operating Supply Current | - | - | 231 mA |
Maximum Operating Temperature | - | - | + 85 C |
Bandwidth | - | - | 400 MHz to 2700 MHz |
Supply Voltage Max | - | - | 5 V |
Supply Voltage Min | - | - | 3 V |
Unit Weight | - | - | 0.033076 oz |
Hersteller | Teil # | Beschreibung | RFQ |
---|---|---|---|
Analog Devices / Hittite |
HMC263-SX | RF Amplifier I.C., 25-32 GHz LNA Die | |
HMC264 | RF Mixer Sub-Harmonic mix Chip, 20 - 32 GHz | ||
HMC264LC3B | RF Mixer Sub Harmonic mix SMT, 21 - 31 GHz | ||
HMC264LC3BTR | RF Mixer Sub Harmonic mix SMT, 21 - 31 GHz | ||
HMC264LM3 | RF Mixer Sub-Harmonic mix SMT, 20 - 30 GHz | ||
HMC265 | RF Mixer Sub-Harmonic mix Chip, 20 - 32 GHz | ||
HMC264LM3TR | RF Mixer Sub-Harmonic mix SMT, 20 - 30 GHz | ||
HMC263LP4E | RF Amplifier LNA, 20-36GHz | ||
HMC263 | RF Amplifier lo Noise amp Chip, 24 - 36 GHz | ||
HMC263LP4ETR | RF Amplifier LNA, 20-36GHz | ||
Analog Devices Inc. |
HMC260ALC3B | RF Mixer Mixers | |
HMC264-SX | RF Mixer I.C. Sub-Harm Mix 20 - 32 GHz Die | ||
HMC260ALC3BTR | RF Mixer Mixer | ||
HMC264LC3BTR-R5 | RF Mixer Sub Harmonic mix SMT, 21 - 31 GHz | ||
HMC260ALC3BTR-R5 | RF Mixer Mixer | ||
HMC265-SX | Up-Down Converters I.C. Sub-Harm Downconv20-32GHz Die | ||
HMC260LC3BTR-R5 | RF Mixer GaAs MMIC Fundamental mix , 14 - 26 GHz | ||
HMC260 | RF Mixer GaAs Fundamental Mix Chip, 14 - 26 GHz | ||
HMC260LC3B | RF Mixer GaAs MMIC Fundamental mix , 14 - 26 GHz | ||
HMC263LP4ETR | RF Amplifier LNA 20-36GHz | ||
HMC263-SX | RF Amplifier I.C. 25-32 GHz LNA Die | ||
HMC263 | RF Amplifier lo Noise amp Chip 24 - 36 GHz | ||
HMC263LP4E | RF Amplifier LNA 20-36GHz | ||
HMC264-SX | RF Mixer I.C. Sub-Harm Mix 20 - 32 GHz Die | ||
HMC264LC3BTR-R5 | RF Mixer Sub Harmonic mix SMT, 21 - 31 GHz | ||
HMC264LM3TR | RF Mixer Sub-Harmonic mix SMT 20 - 30 GHz | ||
HMC260LC3BTR | RF Mixer GaAs MMIC Fundamental mix 14 - 26 GHz | ||
HMC264LC3BTR | RF Mixer Sub Harmonic mix SMT 21 - 31 GHz | ||
HMC264 | RF Mixer Sub-Harmonic mix Chip 20 - 32 GHz | ||
HMC265 | RF Mixer Sub-Harmonic mix Chip 20 - 32 GHz | ||
HMC264LM3 | RF Mixer Sub-Harmonic mix SMT 20 - 30 GHz | ||
HMC260 | RF Mixer GaAs Fundamental Mix Chip 14 - 26 GHz | ||
HMC260LC3B | RF Mixer GaAs MMIC Fundamental mix 14 - 26 GHz | ||
HMC264LC3B | RF Mixer Sub Harmonic mix SMT 21 - 31 GHz | ||
HMC260LC3BTR-R5 | IC MIXER SUB-HARMONIC 12SMD | ||
HMC2621LP5E | IC RF AMP | ||
HMC260-SX | IC MMIC MIXER DBL-BAL DIE | ||
HMC260ALC3BTR | 10 GHz to 26 GHz, GaAs, MMIC, Double Balanced Mixe | ||
HMC260ALC3BTR-R5 | 10 GHz to 26 GHz, GaAs, MMIC, Double Balanced Mixe | ||
HMC260ALC3B | IC MIXER FUNDAMENTAL 12SMD | ||
HMC263LP4 | Neu und Original | ||
HMC2602S8 | Neu und Original | ||
HMC2602S8E | Neu und Original | ||
HMC260A | Neu und Original | ||
HMC260LC3BETR | Neu und Original | ||
HMC263LP4ETR/ADI | Neu und Original | ||
HMC263LP4ETRADI | Neu und Original | ||
HMC264LC3 | Neu und Original | ||
HMC264LC3BETR | Neu und Original | ||
HMC264LM3E | Neu und Original |