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PCD5003 Datasheet(PDF) 6 Page - NXP Semiconductors |
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PCD5003 Datasheet(HTML) 6 Page - NXP Semiconductors |
6 / 44 page 1997 Jun 24 6 Philips Semiconductors Product specification Advanced POCSAG Paging Decoder PCD5003 7 FUNCTIONAL DESCRIPTION 7.1 Introduction The PCD5003 is a very low power decoder and pager controller specifically designed for use in new generation radio pagers. The architecture of the PCD5003 allows for flexible application in a wide variety of radio pager designs. The PCD5003 is fully compatible with “CCIR Radio paging Code No. 1” (also known as the POCSAG code) operating at data rates of 512, 1200 and 2400 bits/s using a single oscillator crystal of 76.8 kHz. In addition to the standard POCSAG sync word the PCD5003 is also capable of recognizing up to 4 User Programmable Sync Words (UPSWs). This permits the reception of both private services and POCSAG transmissions via the same radio channel. Used together with the Philips UAA2080 or UAA2082 paging receiver, the PCD5003 offers a highly sophisticated, miniature solution for the radio paging market. Control of an RF synthesizer circuit is also provided to ease alignment and channel selection. On-chip EEPROM provides storage for user addresses (Receiver Identity Codes or RICs) and Special Programmed Functions (SPFs), which eliminates the need for external storage devices and interconnection. For other non-volatile storage 20 bytes of general purpose EEPROM are available. The low EEPROM programming voltage makes the PCD5003 well- suited for ‘over-the-air’ programming/reprogramming. On request from an external controlling device or automatically (by SPF programming), the PCD5003 will provide standard POCSAG alert cadences by driving a standard acoustic ‘beeper’. Non-standard alert cadences may be generated via a cadence register or a dedicated control input. The PCD5003 can also produce a HIGH level acoustic alert as well as drive an LED indicator and a vibrator motor via external bipolar transistors. The PCD5003 contains a low-power, high-efficiency voltage converter (doubler) designed to provide a higher voltage supply to LCD drivers or microcontrollers. In addition, an independent level shifted interface is provided allowing communication to a microcontroller operating at a higher voltage than the PCD5003. Interface to such an external device is provided by an I2C-bus which allows received call identity and message data, data for the programming of the internal EEPROM, alert control and pager status information to be transferred between the devices. Pager status includes features provided by the PCD5003 such as battery-low and out-of-range indications. A dedicated interrupt line minimizes the required microcontroller activity. A selectable low frequency timing reference is provided for use in real time clock functions. Data synchronization is achieved by the Philips patented ACCESS® algorithm ensuring that maximum advantage is made of the POCSAG code structure particularly in fading radio signal conditions. The algorithm allows for data synchronization without preamble detection whilst minimizing battery power consumption. Random and (optional) burst error correction techniques are applied to the received data to optimize on call success rate without increasing falsing rate beyond specified POCSAG levels. 7.2 The POCSAG paging code A transmission using the “CCIR Radio paging Code No. 1” (POCSAG code) is constructed in accordance with the following rules (see Fig.3). The transmission is started by sending a preamble, consisting of at least 576 continuously alternating bits (10101010...). The preamble is followed by an arbitrary number of batch blocks. Only complete batches are transmitted. Each batch comprises 17 codewords of 32 bits each. The first codeword is a synchronization codeword with a fixed pattern. The sync word is followed by 8 frames (0 to 7) of 2 codewords each, containing message information. A codeword in a frame can either be an address, message or idle codeword. Idle codewords also have a fixed pattern and are used to fill empty frames or to separate messages. Address codewords are identified by an MSB of logic 0 and are coded as shown in Fig.3. A user address or RIC consists of 21 bits. Only the upper 18 bits are encoded in the address codeword (bits 2 to 19). The lower 3 bits designate the frame number (0 to 7) in which the address is transmitted. Four different call types (‘numeric’, ‘alphanumeric’ and two ‘alert only’ types) can be distinguished on each user address. The call type is determined by two function bits in the address codeword (bits 20 and 21), as shown in Table 1. |
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