參數(shù)資料
型號: HI5905QML
廠商: Intersil Corporation
英文描述: 14 Bits 5MSPS Military A/D Converter(14位、5MSPS軍用ADC)
中文描述: 14位5MSPS軍事的A / D轉換器(14位,5MSPS軍用藝發(fā)局)
文件頁數(shù): 5/8頁
文件大?。?/td> 93K
代理商: HI5905QML
4-5
identical four-bit subconverter stages with the corresponding
output of the fifth stage flash converter before applying the
twenty bit result to the digital error correction logic. The
digital error correction logic uses the supplementary bits to
correct any error that may exist before generating the final
fourteen bit digital data output of the converter.
Because of the pipeline nature of this converter, the digital
data representing an analog input sample is output to the
digital data bus on the 4th cycle of the clock after the analog
sample is taken. This time delay is specified as the data
latency. After the data latency time, the digital data
representing each succeeding analog sample is output
during the following clock cycle. The digital output data is
synchronized to the external sampling clock with a latch. The
digital output data is available in two’s complement binary
format (see Table 1, A/D Code Table).
Internal Reference Generator, V
ROUT
and V
RIN
The HI5905 has an internal reference generator, therefore, no
external reference voltage is required. V
ROUT
must be
connected to V
RIN
when using the internal reference voltage.
The HI5905 can be used with an external reference. The
converter requires only one external reference voltage
connected to the V
RIN
pin with V
ROUT
left open.
The HI5905 is tested with V
ROUT
, equal to 4.0V, connected
to V
RIN
. Internal to the converter, two reference voltages of
1.3V and 3.3V are generated for a fully differential input
signal range of
±
2V.
In order to minimize overall converter noise, it is
recommended that adequate high frequency decoupling be
provided at the reference voltage input pin, V
RIN
.
Analog Input, Differential Connection
The analog input to the HI5905 can be configured in various
ways depending on the signal source and the required level
of performance. A fully differential connection (Figure 4) will
give the best performance for the converter.
Since the HI5905 is powered off a single +5V supply, the
analog input must be biased so it lies within the analog input
common mode voltage range of 1.0V to 4.0V. The
performance of the ADC does not change significantly with
the value of the analog input common mode voltage.
A 2.3V DC bias voltage source, V
DC
, half way between the
top and bottom internal reference voltages, is made
available to the user to help simplify circuit design when
using a differential input. This low output impedance voltage
source is not designed to be a reference but makes an
excellent bias source and stays within the analog input
common mode voltage range over temperature.
The difference between the converter’s two internal voltage
references is 2V. For the AC coupled differential input, (Figure
4),ifV
IN
isa2V
P-P
sinewavewith-V
IN
being180degreesoutof
phase with V
IN
, then V
IN
+ is a 2V
P-P
sinewave riding on a DC
bias voltage equal to V
DC
and V
IN
- is a 2V
P-P
sinewave riding
onaDCbiasvoltageequaltoV
DC
.Consequently,theconverter
willbe at positive fullscale, resultingin a digitaldata outputcode
with D13 (MSB) equal to a logic “0” and D0-D12 equal to logic
“1” (see Table 1, A/D Code Table), when the V
IN
+ input is at
V
DC
+1V and the V
IN
- input is at VDC-1V (V
IN
+ - V
IN
- = 2V).
Conversely, the ADC will be at negative full scale, resulting in a
digital data output code with D13 (MSB) equal to a logic “1” and
D0-D12 equal to logic “0” (see Table 1, A/D Code Table), when
the V
IN
+ input is equal to V
DC
-1V and V
IN
- is at V
DC
+1V
(V
IN
+-V
IN
- = -2V). From this, the converter is seen to have a
peak-to-peak differential analog input voltage range of 2V
The analog input can be DC coupled (Figure 5) as long as
the inputs are within the analog input common mode voltage
range (1.0V
VDC
4.0V).
V
IN
+
V
DC
V
IN
-
HI5905
V
IN
-V
IN
FIGURE 4. AC COUPLED DIFFERENTIAL INPUT
TABLE 1. A/D CODE TABLE
CODE
CENTER
DESCRIPTION
DIFFERENTIAL
INPUTVOLTAGE
(USING INTERNAL
REFERENCE)
TWO’S COMPLEMENT BINARY OUTPUT CODE
MSB
LSB
D13
D12
D11
D10
D9
D8
D7
D6
D5
D4
D3
D2
D1
D0
+Full Scale
(+FS) - 1/4 LSB
+FS
-
1 1/4 LSB
+ 3/4 LSB
+1.99994V
0
1
1
1
1
1
1
1
1
1
1
1
1
1
1.99969V
183.105
μ
V
-61.035
μ
V
-1.99957V
0
1
1
1
1
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
- 1/4 LSB
1
1
1
1
1
1
1
1
1
1
1
1
1
1
-FS + 1 3/4 LSB
1
0
0
0
0
0
0
0
0
0
0
0
0
1
-Full Scale
(-FS) + 3/4 LSB
The voltages listed above represent the ideal center of each two’s complement binary output code shown.
-1.99982V
1
0
0
0
0
0
0
0
0
0
0
0
0
0
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