ZHCSBF0D 数据表 | 德州仪器 TI.com.cn

ZHCSBF0D August 2013 – February 2018 DAC3151 , DAC3161 , DAC3171

PRODUCTION DATA.

封装选项

机械数据 (封装 | 引脚)

RGC|64
- MPQF125F

散热焊盘机械数据 (封装 | 引脚)

RGC|64
- QFND123N

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7.4.2 Alarm Monitoring

The DAC31x1 includes flexible alarm monitoring that can be used to alert a possible malfunction scenario. All alarm events can be accessed either through the SIP registers or through the ALARM pin. After an alarm is set, the corresponding alarm bit in register config5 must be reset through the serial interface to allow further testing. The set of alarms includes: zero check alarm, FIFO alarms, clock alarms, and pattern checker alarm.

Zero check alarm:

Alarm_from_zerochk occurs when the FIFO write pointer has an all zeros pattern. The write pointer is a shift register; therefore, all zeros cause the input point to be stuck until the next sync event. When this alarm triggers, a sync to the FIFO block is required.

FIFO alarms:

alarm_from_fifo occurs when there is a collision in the FIFO pointers or a collision event is close.
alarm_fifo_2away occurs when pointers are within two addresses of each other.
alarm_fifo_1away occurs when pointers are within one address of each other.
alarm_fifo_collision occurs when pointers are equal to each other.

Clock alarms:

clock_gone occurs when either the DACCLK or DATACLOCK have been stopped.
alarm_dacclk_gone occurs when the DACCLK has been stopped.
alarm_dataclk_gone occurs when the DATACLK has been stopped.

Pattern checker alarm:

alarm_from_iotest occurs when the input data pattern does not match the pattern key.

To prevent unexpected DAC outputs from propagating into the transmit channel chain, the DAC31x1 includes a feature that disables the outputs when a catastrophic alarm occurs. The catastrophic alarms include FIFO pointer collision, the loss DACCLK, or the loss of DATACLK. When any of these alarms occur, the internal TXenable signal is driven low, causing a zeroing of the data going to the DAC in < 10 T. One caveat is if both clocks stop, the circuit cannot determine clock loss, so no alarms are generated; therefore, no zeroing of output data occurs.