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DS1822-PAR Datasheet(PDF) 7 Page - Dallas Semiconductor |
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DS1822-PAR Datasheet(HTML) 7 Page - Dallas Semiconductor |
7 / 19 page DS1822-PAR 7 of 19 proceeding if the DS1822-PAR CRC (ROM or scratchpad) does not match the value generated by the bus master. The equivalent polynomial function of the CRC (ROM or scratchpad) is: CRC = X 8 + X5 + X4 + 1 The bus master can recalculate the CRC and compare it to the CRC values from the DS1822-PAR using the polynomial generator shown in Figure 8. This circuit consists of a shift register and XOR gates, and the shift register bits are initialized to 0. Starting with the least significant bit of the ROM code or the least significant bit of byte 0 in the scratchpad, one bit at a time should shifted into the shift register. After shifting in the 56 th bit from the ROM or the most significant bit of byte 7 from the scratchpad, the polynomial generator will contain the re-calculated CRC. Next, the 8-bit ROM code or scratchpad CRC from the DS1822-PAR must be shifted into the circuit. At this point, if the re-calculated CRC was correct, the shift register will contain all 0s. Additional information about the Dallas 1-Wire cyclic redundancy check is available in Application Note 27 entitled Understanding and Using Cyclic Redundancy Checks with Dallas Semiconductor Touch Memory Products. CRC GENERATOR Figure 8 1-WIRE BUS SYSTEM The 1-Wire bus system uses a single bus master to control one or more slave devices. The DS1822-PAR is always a slave. When there is only one slave on the bus, the system is referred to as a “single-drop” system; the system is “multidrop” if there are multiple slaves on the bus. All data and commands are transmitted least significant bit first over the 1-Wire bus. The following discussion of the 1-Wire bus system is broken down into three topics: hardware configuration, transaction sequence, and 1-Wire signaling (signal types and timing). HARDWARE CONFIGURATION The 1-Wire bus has by definition only a single data line. Each device (master or slave) interfaces to the data line via an open drain or 3-state port. This allows each device to “release” the data line when the device is not transmitting data so the bus is available for use by another device. The 1-Wire port of the DS1822-PAR (the DQ pin) is open drain with an internal circuit equivalent to that shown in Figure 9. The 1-Wire bus requires an external pullup resistor of approximately 5 k Ω; thus, the idle state for the 1- Wire bus is high. If for any reason a transaction needs to be suspended, the bus must be left in the idle state if the transaction is to resume. Infinite recovery time can occur between bits so long as the 1-Wire bus is in the inactive (high) state during the recovery period. If the bus is held low for more than 480 μs, all components on the bus will be reset. In addition, to assure that the DS1822-PAR has sufficient supply current during temperature conversions, it is necessary to provide a strong pullup (such as a MOSFET) on the 1-Wire bus whenever temperature conversions are taking place (as described in the PARASITE POWER section). (MSB) (LSB) XOR XOR XOR INPUT |
Similar Part No. - DS1822-PAR_07 |
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Similar Description - DS1822-PAR_07 |
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