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Maxim >
产品 >
高频ASIC
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IP Blocks
A Wide Variety of Intellectual Property Improves the Time-to-Market for Your RF ASIC Designs All the intellectual property here can be redefined and designed according to the customer's design specifications. Full modeling is offered to satisfy specific project needs.
| LNAs Gain = 14dB to 16dB IIP3 = +2dBm to +12dBm PCS NF = 1.2dB Cellular NF = 0.9dB GPS NF = 1.0dB | Mixers Noise Figures of 6.5dB to 11dB IIP3 = +5dBm 10dB to 15dB Conversion Gain Frequency Range Within 100MHz to 5GHz | | VGAs Gain-Control Range Within 10dB to 55dB Frequency Range Within Baseband to 2.5GHz Automatic DC-Offset Control Temperature Stable to ±2dB (-40°C to +120°C) | Power Amplifiers PCS PA Efficiency of 36% POUT = +28dBm Gain = 24dB ACPR of -47dBc (Narrow-Band CDMA) ALTCPR of -56dBc | | VCOs Frequencies Up to 5GHz 80dBc/Hz (typ) Phase Noise at 10kHz Offset, 8mA High-Q, On-Chip Inductors Frequency Trimming Available | Digital Cells Extensive CMOS and CML Digital Libraries Schematic, Layout, Behavioral, Verilog, LPE, and Symbol Views I/O Buffers, Bandgaps, ESD, and Trim Cells |
RF ASIC Development Maxim can partner with you in manyways to develop your RF ASIC. We offer a broad range of SiGe technologies, along with RF test capability and state-of-the-art packaging. Contact our USA foundry group by phone, 503/547-2415, or by fax, 503/547-0810. You can email us at
High-Frequency ASIC Designs All Maxim high-frequency technologies feature laser analog or digital trim of either NiCr or SiCr resistors, which is performed at final wafer test. This trim not only improves the VCO, but can also improve amplifier gain, linearity, and the performance of high-speed ADCs and DACs. The unique features of laser-trim strategy benefit all ASIC designs. Contact Maxim to discuss your specific laser-trim needs.
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