SBAS887 August 2022 ADC3564
PRODUCTION DATA
The output bit mapper allows to change the output bit order for any selected interface mode.
It is a two step process to change the output bit mapping and assemble the output data bus:
Bit | Channel A | Channel B | ||
---|---|---|---|---|
Previous sample (2w only) | Current sample | Previous sample (2w only) | Current sample | |
D19 (MSB) | 0x2D | 0x6D | 0x29 | 0x69 |
D18 | 0x2C | 0x6C | 0x28 | 0x68 |
D17 | 0x27 | 0x67 | 0x23 | 0x63 |
D16 | 0x26 | 0x66 | 0x22 | 0x62 |
D15 | 0x25 | 0x65 | 0x21 | 0x61 |
D14 | 0x24 | 0x64 | 0x20 | 0x60 |
D13 | 0x1F | 0x5F | 0x1B | 0x5B |
D12 | 0x1E | 0x5E | 0x1A | 0x5A |
D11 | 0x1D | 0x5D | 0x19 | 0x59 |
D10 | 0x1C | 0x5C | 0x18 | 0x58 |
D9 | 0x17 | 0x57 | 0x13 | 0x53 |
D8 | 0x16 | 0x56 | 0x12 | 0x52 |
D7 | 0x15 | 0x55 | 0x11 | 0x51 |
D6 | 0x14 | 0x54 | 0x10 | 0x50 |
D5 | 0x0F | 0x4F | 0x0B | 0x4B |
D4 | 0x0E | 0x4E | 0x0A | 0x4A |
D3 | 0x0D | 0x4D | 0x09 | 0x49 |
D2 | 0x0C | 0x4C | 0x08 | 0x48 |
D1 | 0x07 | 0x47 | 0x03 | 0x43 |
D0 (LSB) | 0x06 | 0x46 | 0x02 | 0x42 |
In the serial output mode, a data bit (with unique identifier) needs to be assigned to each location within the serial output stream. There are a total of 40 addresses available per channel. Channel A spans from address 0x39 to 0x60 and channel B from address 0x61 to 0x88. When using complex decimation, the output bit mapper is applied to both the “I” and the “Q” sample.
2-wire mode: in this mode both the current and the previous sample have to be used in the address space as shown in Figure 8-35. The address order is different for 14/18-bit and 16/20-bit. Note: there are unused addresses between samples for resolution less than 20-bit (grey back ground), which can be skipped if not used.
In the following example (Figure 8-36), the 16-bit 2-wire serial output is reordered to where lane DA1/DB1 carries the 8 MSB and lane DA0/DB0 carries 8 LSBs.
1-wire mode: Only the current sample needs to programmed in the address space. If desired, it can be duplicated on DA1/DB1 as well (using addresses shown below) in order to have a redundant output. Lane DA1/DB1 needs to be powered up in that case.
½-wire mode: The output is only lane DA0 and the sample order is programmed into the 40 addresses of chA (from 0x39 to 0x60). It covers 2 samples (one for chA, one for chB) as shown below. If desired it can be duplicated on DB0 as well (using addresses shown Figure 8-38) in order to have a redundant output. Lane DB0 needs to be powered up in that case.