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MCRF200I1M08D Datasheet(PDF) 5 Page - Microchip Technology |
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MCRF200I1M08D Datasheet(HTML) 5 Page - Microchip Technology |
5 / 24 page 2003 Microchip Technology Inc. DS21219H-page 5 MCRF200 2.2 Configuration Register and Control Logic The configuration register determines the operational parameters of the device. The configuration register can not be programmed contactlessly; it is programmed during wafer probe at the Microchip factory. CB11 is always a zero; CB12 is set when successful contact or contactless programming of the data array has been completed. Once CB12 is set, device programming and erasing is disabled. Table 2-4 contains a description of the bit functions of the control register. 2.2.1 BAUD RATE TIMING OPTION The chip will access data at a baud rate determined by bits CB2, CB3 and CB4 of the configuration register. For example, MOD32 (CB2 = 0, CB3 = 1, CB4 = 1) has 32 RF cycles per bit. This gives the data rate of 4 kHz for the RF carrier frequency of 128 kHz. The default timing is MOD128 (FCLK/128), and this mode is used for contact and contactless program- ming. Once the array is successfully programmed, the lock bit CB12 is set. When the lock bit is set, program- ming and erasing the device becomes permanently disabled. The configuration register has no effect on device timing until the EEPROM data array is programmed (CB12 = 1). 2.2.2 DATA ENCODING OPTION This logic acts upon the serial data being read from the EEPROM. The logic encodes the data according to the configuration bits CB6 and CB7. CB6 and CB7 determine the data encoding method. The available choices are: • Non-return to zero-level (NRZ_L) • Biphase Differential, Biphase Manchester • Inverted Manchester 2.2.3 MODULATION OPTION CB8 and CB9 determine the modulation protocol of the encoded data. The available choices are: • ASK •FSK • PSK_1 • PSK_2 When ASK (direct) option is chosen, the encoded data is fed into the modulation transistor without change. When FSK option is chosen, the encoded data is represented by: a) Sets of 10 RF carrier cycles (first 5 cycles → higher amplitude, the last 5 cycles → lower amplitude) for logic “high” level. b) Sets of 8 RF carrier cycles (first 4 cycles → higher amplitude, the last 4 cycles → lower amplitude) for logic “low” level. For example, FSK signal for MOD40 is represented: a) 4 sets of 10 RF carrier cycles for data ‘1’. b) 5 sets of 8 RF carrier cycles for data ‘0’. Refer to Figure 2-2 for the FSK signal with MOD40 option. The PSK_1 represents change in the phase of the modulation signal at the change of the encoded data. For example, the phase changes when the encoded data is changed from ‘1’ to ‘0’, or from ‘0’ to ‘1’. The PSK_2 represents change in the phase at the change on ‘1’. For example, the phase changes when the encoded data is changed from ‘0’ to ‘1’, or from ‘1’ to ‘1’. FIGURE 2-2: ENCODED DATA AND FSK OUTPUT SIGNAL FOR MOD40 OPTION Encoded Data ‘1’ Encoded Data ‘0’ 40 RF cycles 40 RF cycles 5 cycles (HI) 5 cycles (LO) 4 cycles (HI) 4 cycles (LO) |
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