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参数资料
| 型号: | DC1684A-A |
| 厂商: | Linear Technology |
| 文件页数: | 4/24页 |
| 文件大小: | 0K |
| 描述: | BOARD DAC LTC2758 |
| 软件下载: | QuikEval System |
| 设计资源: | DC1684A Design File DC1684A Schematic |
| 标准包装: | 1 |
| 系列: | QuikEval™, SoftSpan™ |
| DAC 的数量: | 2 |
| 位数: | 18 |
| 数据接口: | 串行,SPI? |
| 设置时间: | 2.1µs |
| DAC 型: | 电流 |
| 工作温度: | 0°C ~ 70°C |
| 已供物品: | 板 |
| 已用 IC / 零件: | LTC2758 |
| 相关产品: | LTC2758AILX#PBF-ND - IC DAC 18BIT SPI/SRL 48-LQFP LTC2758BILX#PBF-ND - IC DAC 18BIT SPI/SRL 48-LQFP LTC2758BCLX#PBF-ND - IC DAC 18BIT SPI/SRL 48-LQFP LTC2758ACLX#PBF-ND - IC DAC 18BIT SPI/SRL 48-LQFP DC590B-ND - BOARD DEMO USB SERIAL CONTROLLER |
LTC2758
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2758fa
For more information www.linear.com/LTC2758
OPERATION
data occupies the first 18 bits of the 24-bit field; and the
span bits are the last four bits of the second data byte
when checking the output range. In both cases, all other
bits in the 24-bit data field are filled by zeros. Figure 2
shows the input and readback sequences.
The data outputted by SRO is always in the same position
and sequence as the input data. Note, however, that this
means that the SRO data shifts out one-half clock cycle
earlier than the corresponding bit shifting in on SDI. For
example, code bit D9, which is shifted in to SDI on the
rising edge of SCK clock 17, is clocked out of SRO on the
falling edge of clock 16. This allows D9 to be clocked to an
external microprocessor on the rising edge of clock 17.
For Read commands, the requested data is shifted out
of SRO in the 3-byte (24-bit) data field immediately after
the command/address byte. There is no instruction-cycle
latencyforReadcommands;thedatashiftsoutinthesame
instruction cycle in which it was requested.
For non-read (i.e., Write and/or Update) commands, SRO
automatically shifts out the contents of the buffer that
was acted upon in the preceding command. This “rolling
readback” default mode of operation can dramatically re-
duce the number of instruction cycles needed, since most
commands can be verified during subsequent commands
with no additional overhead. A conceptual flow diagram
is shown in Figure 3. Table 1 shows, for each anteced-
ent command, which register (‘readback pointer’) will be
copiedintotheReadbackregisterandoutputtedfromSRO
during the following instruction cycle.
Span Readback in Manual Span Configuration
If a Span DAC register is chosen for readback, SRO re-
sponds by outputting the actual output span; this is true
whether the LTC2758 is configured for SoftSpan (M-SPAN
tied to GND) or manual span (M-SPAN tied to VDD).
In SoftSpan configuration, SRO outputs the span code
from the Span DAC register (programmed through the
SPI port). In manual span configuration, the active output
range is controlled by pins S2, S1 and S0, so SRO outputs
the logic values of these pins. The span code bits S2, S1
and S0 always appear in the same order and positions in
the SRO output sequence; see Figure 2.
Serial Interface
When the CS/LD pin is taken low, the data on the SDI pin
is loaded into the shift register on the rising edge of the
clock (SCK pin). The loading sequence required for the
LTC2758 is one byte consisting of a 4-bit command word
(C3 C2 C1 C0) and a 4-bit address word (A3 A2 A1 A0),
then three bytes (24 bits) of data.
When writing a code, the code data is left (MSB) justified;
so that the 24-bit data field consists of 18 code bits fol-
lowed by 6 don’t-care bits.
When writing an output range, the span data should oc-
cupy the last 4 bits of the second data byte, ordered S3
through S0. Figure 2 shows the SDI input word syntax
for writing.
When CS/LD is low, the SRO pin (Serial Readback Output)
is an active output. The readback data begins after the
command (C3-C0) and address (A3-A0) words have been
shifted in to SDI. SRO outputs a logic low from the falling
edge of CS/LD until the Readback data begins.
When CS/LD is high, the SRO pin presents a high imped-
ance (three-state) output.
LDAC is an asynchronous update pin. When LDAC is
taken low, all DACs are updated with code and span data
(data in the Input buffers is copied into the DAC buffers).
CS/LD must be high during this operation; otherwise
LDAC is locked out and will have no effect. The use of
LDAC is functionally identical to the “Update All DACs”
serial input command.
The codes for the command (C3-C0) are defined in Table 1;
Table 2 defines the codes for the address (A3-A0).
Readback
In addition to the Code and Span register sets, each DAC
hasoneReadbackregisterassociatedwithit.Everyinstruc-
tion cycle, the contents of one of the on-chip registers is
copied into a Readback register and serially shifted out
through the SRO pin.
Readback data always appears in the 24-bit data field,
starting on the falling SCK edge immediately after the last
address bit is shifted in on SDI. When reading a code, code
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