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HSP50214BVI Datasheet(PDF) 7 Page - Intersil Corporation |
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HSP50214BVI Datasheet(HTML) 7 Page - Intersil Corporation |
7 / 62 page 7 FN4450.4 May 1, 2007 Functional Description The HSP50214B Programmable Downconverter (PDC) is an agile digital tuner designed to meet the requirements of a wide variety of communications industry standards. The PDC contains the processing functions needed to convert sampled IF signals to baseband digital samples. These functions include LO generation/mixing, decimation filtering, programmable FIR shaping/bandlimiting filtering, resampling, Automatic Gain Control (AGC), frequency discrimination and detection as well as multi-chip synchronization. The HSP50214B interfaces directly with a DSP microprocessor to pass baseband and status data. A top level functional block diagram of the HSP50214B is shown in Figure 1. The diagram shows the major blocks and multiplexers used to reconfigure the data path for various architectures. The HSP50214B can be broken into 13 sections: Synchronization, Input, Input Level Detector, Carrier Mixer/Numerically Control Oscillator (NCO), CIC Decimating Filter, Halfband Decimating Filter, 255-Tap Programmable FIR Filter, Automatic Gain Control (AGC), Re-sampler/Halfband Filter, Timing NCO, Cartesian to Polar Converter, Discriminator, and Output Sections. All of these sections are configured through a microprocessor interface. The HSP50214B has three clock inputs; two are required and one is optional. The input level detector, carrier NCO, and CIC decimating filter sections operate on the rising edge of the input clock, CLKIN. The halfband filter, programmable FIR filter, AGC, Re-Sampler/Halfband filters, timing NCO, discriminator, and output sections operate on the rising edge of PROCCLK. The third clock, REFCLK, is used to generate timing error information. NOTE: All of the clocks may be asynchronous. PDC Applications Overview This section highlights the motivation behind the key programmable features from a communications system level perspective. These motivations will be defined in terms of ability to provide DSP processing capability for specific modulation formats and communication applications. The versatility of the Programmable Downconverter can be intimidating because of the many Control Words required for chip configuration. This section provides system level insight to help allay reservations about this versatile DSP product. It should help the designer capitalize on the greatest feature of the PDC - VERSATILITY THROUGH PROGRAMMABILITY. It is this feature, when fully understood, that brings the greatest return on design investment by offering a single receiver design that can process the many waveforms required in the communications marketplace. FDM Based Standards and Applications Table 1 provides an overview of some common frequency division multiplex (FDM) base station applications to which the PDC can be applied. The PDC provides excellent selectivity for frequency division multiple access (FDMA) signals. This high selectivity is achieved with 0.012Hz resolution frequency control of the NCO and the sharp filter responses capable with a 255-tap, 22-bit coefficient FIR filter. The 16-bit resolution out of the Cartesian to Polar Coordinate Converter are routed to the frequency detector, which is followed by a 63-tap, 22-bit coefficient FIR filter structure for facilitating FM and FSK detection. The 14-bit input resolution is the smallest bit resolution found throughout the conversion and filtering sections, providing excellent dynamic range in the DSP processing. A unique input gain scaler adds an additional 42dB of range to the input level variation, to compensate for changes in the analog RF front end receive equipment. Synchronization circuitry allows precise timing control of the base station reconfiguration for all receive channels simultaneously. Portions of this table were corroborated with reference [2]. TDM Based Standards and Applications Table 2 provides an overview of some common Time Division Multiplexed (TDM) base station applications to which the PDC can be applied. For time division multiple access (TDMA) applications, such as North American TDMA (IS136), where 30kHz is the received band of interest for the PCS basestation, the PDC offers 0.012Hz frequency resolution in downconversion in addition to α = 0.35 matched (programmable) filtering capability. The π/4 DPSK modulation can be processed using the PDC Cartesian to Polar coordinate converter and d φ/dt detector circuitry or by processing the I/Q samples in the DSP μP. The PDC provides TABLE 1. CELLULAR PHONE BASE STATION APPLICATIONS USING FDMA STANDARD AMPS (IS-91) MCS-L1 MCS-L2 NMT-400 NMT-900 C450 ETACS NTACS RX BAND (MHz) 824-849 925-940 453-458 890-915 451-456 871-904 915-925 CHANNEL BW (kHz) 30 25.0 12.5 25 12.5 20.0 10.0 25.0 12.5 # TRAFFIC CHANNELS 832 600 1200 200 1999 222 444 1240 800 VOICE MODULA- TION FM FM FM FM FM PEAK DEVIATION (kHz) 12 5 5 4 9.5 CONTROL MODULA- TION FSK FSK FSK FSK FSK PEAK DEVIATION (kHz) 8 4.5 3.5 2.5 6.4 CONTROL CHANNEL RATE (Kbps) 10 0.3 1.2 5.3 8 HSP50214B |
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