|Category||RF & Microwaves => Amplifiers => Power Amplifiers => LNAs|
|Description||5 to 1000 MHZ TO-8 Cascadable Amplifier|
|Datasheet||Download A63 datasheet
TO 1000 MHz CASCADABLE AMPLIFIER LOW NOISE: 3.0 dB (TYP.) MEDIUM THIRD ORDER I.P.: +15 dBm (TYP.) HIGH GAIN: 16 dB (TYP.)
Characteristics Frequency Small Signal Gain (min.) Gain Flatness (max.) Reverse Isolation Noise Figure (max.) Power Output 1 dB comp. (min.) IP3 IP2 Second Order Harmonic IP VSWR Input / Output (max.) DC Current @ 15 Volts (max.) TypicalMeasured a 50-ohm system at +15 Vdc Nominal. Subject to change without notice.
Storage Temperature Max. Case Temperature Max. DC Voltage Max. Continuous RF Input Power Max. Short Term RF Input Power (1 minute max.) Max. Peak Power (3 µsec max.) "S" Series Burn-in Temperature (Case)Thermal Resistance jc Transistor Power Dissipation Pd Junction Temperature Rise Above Case Tjc
Package Figure Model BG A63 Surface Mount AA SMA63 SMA Connectorized CE CA63
Specifications subject to change without notice. North America: 1-800-366-2266 Visit www.macom.com for complete contact and product information.
|Related products with the same datasheet|
|Some Part number from the same manufacture M/A-COM, Inc.|
|A64 10 to 1200 MHZ TO-8 Cascadable Amplifier|
|A66-1 10 to 1000 MHZ TO-8 Cascadable Amplifier|
|A67 10 to 800 MHZ TO-8 Cascadable Amplifier|
|A67-1 10 to 600 MHZ TO-8 Cascadable Amplifier|
|A70 10 to 250 MHZ TO-8 Cascadable Amplifier|
|A70-2 10 to 250 TO-8 Cascadable Amplifier|
|A70-3 20 to 250 MHZ TO-8 Cascadable Amplifier|
|A71 5 to 200 MHZ TO-8 Cascadable Amplifier|
|A72 5 to 500 MHZ TO-8 Cascadable Amplifier|
|A74-1 5 to 250 MHZ TO-8 Cascadable Amplifier|
|A74-2 5 to 500 MHZ TO-8 Cascadable Amplifier|
|A75-2 5 to 250 MHZ TO-8 Cascadable Amplifier|
|A75-3 10 to 500 MHZ TO-8 Cascadable Amplifier|
|A76 5 to 500 MHZ TO-8 Cascadable Amplifier|
2N3894 : Phase Control SCR 175 Amoeres Average 1200 Volts.
40262 : Power Dividers. = Power Dividers ;; Size LXWXH = 3.75 X 4.75 X 0.37" ;; Packaging = Aluminum Cased ;; Frequency MHZ = 125-250 ;; Power Handling Watts = 10.
AM124 : Antenna Switch. Triple-band GAAS ic Antenna Switch. Integrated Diplexer, TX LPFs, GaAs Switches and Decoder Low Current Drain, 10 µA Typ. Low TX Insertion Loss dB @ EGSM, dB @ DCS/PCS) ESD Robust (>8 kV Contact, >15 kV Air) Capable of All Off Conditions for DCS/PCS Bands Combines GaAs PHEMT, CMOS and LTCC Process Technologies The is an EGSM/DCS/PCS antenna switch module with integrated SP2T/SP3T.
LT1527AJ : Regulating Pulse Width Modulators.
MAMUSM0008 : 1.8-2.4 Ghz, Digital Switched Delay Line. 750 pS Dynamic Range, 50 pS Step Size n BGA Package n Parallel Control Interface n Positive Control Logic n Cascadable n No off chip components required The M/A-COM 750 pS variable delay line controlled by 4 complementary bit pairs. It provides the user with 50 pS delay step sizes for use in standard wireless applications. The MAMUSM0008 is particularly.
NJG1552F : GaAs MMICs. 1.5GHz/1.9GHz Mixer GAAS Mmic. n GENERAL is a mixer GaAs MMIC featured low power consumption, high conversion gain and low noise figure. This mixer includes a local amplifier, and ideally suitable for 1.5/1.9Hz band digital mobile phone and PHS handsets. The very small MTP package is adopted. n PACKAGE OUTLINE NJG1552F n l Low voltage operation l Low current consumption l High conversion.
RF2048 : General Purpose Amplifier. Typical Applications Broadband, Low Noise Gain Blocks or RF Buffer Amplifiers Driver Stage for Power Amplifiers Product The is a general purpose, low cost RF amplifier IC. The device is manufactured on an advanced Gallium Arsenide Heterojunction Bipolar Transistor (HBT) process, and has been designed for use as an easily-cascadable 50 gain block. Applications.
SW-162 : 20-1500 Mhz, Matched SPDT RF Switch. Internally Terminated Integral TTL Driver Low Loss 0.8 dB Typical Dimensions ( ) are in mm. Unless Otherwise Noted:.xxx = ±0.010 (.xx = ±0.02 (.x = ±0.5) WEIGHT (APPROX.): 0.14 OUNCES 4 GRAMS MIL-STD-883 screening available. *All s apply when operated with bias voltages of +12 VDC and -5 VDC (±5%) and 50 ohm impedance at all RF ports. .
TQS5200 : = SP2T Switch For Single- And Dual-band 802.11a/b/g/Systems ;; IL(dB) = 0.6 ;; ISO(dB) = 28.
HMC470LP3 : 1 dB LSB GaAs MMIC 5-BIT DIGITAL POSITIVE CONTROL ATTENUATOR, DC - 3.0 GHz.
HMC539LP3 : DC - 4 GHz, 5 Bit, 0.25 to 7.75dB Attenuation Range, +50dBm Input IP3 5-bit GaAs IC digital attenuators in low cost leadless surface mount packages. This single positive control line per bit digital attenuator utilizes an off chip AC ground capacitor for near DC operation, making it suitable for a wide variety of RF and IF applications. Covering DC to 4.0 GHz,.
TGA4830-EPU : Wideband Low Noise Amplifier The TriQuint TGA4830-EPU is a medium power wideband low noise amplifier which operates from DC to 45 GHz. Typical small signal gain is 13dB with >20dB AGC range. Typical input and output return loss is 15dB. The TGA4830-EPU provides 11.5 dBm of typical output power at 1 dB gain compression and a 3.2dB noise figure. RF ports.
HMC575LP4 : The HMC575LP4 & HMC575LP4E are x2 active broadband frequency multipliers utilizing GaAs PHEMT technology in a leadless RoHS compliant SMT package. When driven by a 3 dBm signal, the multiplier provides +17 dBm typical output power from 6 to 9 GHz. The Fo and 3Fo isolations are 15 dBc with respect to output signal level. This frequency multiplier DC blocked.
AD9352 : AD9352 WiMAX/WiBro RF MxFE Transceiver Product The AD9352 is a fully integrated transceiver for IEEE 802.16 WiMAX and WiBro wireless network systems. The RF MxFE™ combines the RF front-end with mixed-signal baseband enabling an easy-to-use digital interface to the baseband ASIC or FPGA. The AD9352 operates in the 2.3 GHz to 2.7 GHz range covering most.
HMC-XTB110 : Passive X3 Frequency Multiplier, 24 - 30 GHz Input The HMC-XTB110 is a monolithic X3 Passive Frequency Multiplier which utilizes GaAs Shottky Diode technology, and exhibits low conversion loss and high Fo isolation. This wideband X3 multiplier requires no DC power, and is targeted to high volume applications where frequency X3 of a lower frequency is more.