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HI-3593PCTF Datasheet(PDF) 10 Page - Holt Integrated Circuits |
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HI-3593PCTF Datasheet(HTML) 10 Page - Holt Integrated Circuits |
10 / 23 page All three Priority-Label Match Registers are loaded using SPI op- code 0x18 (Receiver 1) or 0x2C (Receiver 2), followed by three label match values. The first byte is the match value for Priority-Label Register #3, the second for Priority-Label Register #2 and the third for Priority-Label #1. The match values may be checked by reading the Priority-Label Match Registers using SPI op-code 0x9C (Receiver 1) or 0xBC (Receiver 2). When using the Priority-Label feature, all three Priority-Label Match Registers must be loaded to avoid unintended matches occurring on un-programmed Priority-Label Match Register random values. If less than three Priority-Labels are required for a particular application, duplicate copies of the same match value should be stored in two (or three) registers. Note that Priority-Label Registers (mail boxes) are only 24 bits long. Because the ARINC 429 label byte value is pre-programmed for each register it is not necessary to store it when words are received. This allows a shorter and faster access of the data field using SPI Op-Codes 0xA4, 0xA8 and 0xAC (Receiver 1 Priority-Label Registers #1, #2 and #3) or 0xC4, 0xC8 and 0xCC (Receiver 2 Priority-Label Registers #1, #2 and #3). The Receive Status Register bits PL1, PL2 and PL3 indicate when Priority-Label data is available in the Priority-Label Registers. Six status output pins MB1-1 through MB2-3 also indicate when data is available at each of the six Priority-Label Registers. The R1INT and R2INT interrupt pins can also be triggered when Priority Labels are captured by programming bits 7, 6, 3 and 2 of the Flag / Interrupt Assignment Register. FUNCTIONAL DESCRIPTION (cont.) DIFFERENTIAL AMPLIFIERS COMPARATORS FIGURE 2. ARINC RECEIVER INPUT RINA-40 RINA RINB RINB-40 VDD GND VDD GND ONE NULL ZERO HOLT INTEGRATED CIRCUITS 10 3. To validate the receive data bit rate, each bit must follow its preceding bit by not less than 8 samples and not more than 12 samples. With exactly 1MHz input clock frequency, the acceptable data bit rates are: 83K BPS 10.4K BPS 125K BPS 15.6K BPS 4. Following the last data bit of a valid reception, the Word Gap timer samples the Null shift register every 10 input clocks (every 80 clocks for low speed). If a Null is present, the Word Gap counter is incremented. A Word Gap count of 3 enables the next reception. Receiver parity checking is enabled by setting the Receive Control register PARITY bit to a “1”. When enabled, the receiver parity circuit counts Ones received, including the parity bit. If the result is odd, a "0" is stored in the 32nd bit position, overwriting the received parity bit. The “0” indicates a parity bit check pass. If receive parity is enabled and a word is received with bad odd parity, the 32nd bit is overwritten with a “1” indicating a parity check fail. When the Receiver Control Register PARITY bit is a “0”, no parity checking takes place and all 32 bits of the received word remain unaltered. The HI-3593 subjects incoming ARINC 429 messages to three different data filter checks before data is accepted. First all words are filtered for matching S/D bits, if enabled. Secondly, the word label byte must match one of the three programmed Priority-Label Match Register Values for the word to be stored in a Priority-Label Register, and/or the label memory filter bit corresponding to the label must be set to a “1” for the word to be stored in the Receiver FIFO. S/D filtering is enabled by setting the Receive Control Register SDON bit to a “1”. When enabled, bits 9 and 10 of the incoming ARINC 429 word are compared with Receive Control Register bits SD9 and SD10. If they match, the word is accepted for the next phase of filtering. If the bits do not match, the word is discarded and never stored. The S/D filtering function may be disabled by programming the SDON bit to a “0”. When disbled, all incoming words are accepted for subsequent filtering. The three Priority Label Registers store received data if the Priority Label feature is enabled, and the incoming ARINC 429 word’s label byte matches the value stored in Pririty-Label Match Register #1, # 2 or #3. Priority-Label capture is enabled by setting the Receive Control Register PLON bit to “1”. When PLON = “0” the Priority-Label feature is disabled and no ARINC 429 words are stored in the Priority-Label Registers. HIGH SPEED LOW SPEED DATA BIT RATE MIN DATA BIT RATE MAX RECEIVER PARITY RECEIVED DATA ACCEPTANCE AND STORAGE S/D FILTERING PRIORITY LABELS HI-3593 LABREC ARINC word SDON ARINC word FIFO matches bits 10, 9 Enabled match SD10, SD9 label 0 X 0 X Load FIFO 1 No 0 X Ignore data 1 Yes 0 X Load FIFO 0 X 1 No Ignore data 0 X 1 Yes Load FIFO 1 Yes 1 No Ignore data 1 No 1 Yes Ignore data 1 No 1 No Ignore data 1 Yes 1 Yes Load FIFO TABLE 3. FIFO LOADING CONTROL |
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