AD1876JN Analog Devices, AD1876JN Datasheet - Page 10
AD1876JN
Manufacturer Part Number
AD1876JN
Description
16-Bit 100 kSPS Sampling ADC
Manufacturer
Analog Devices
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AD1876
lessened. In summary, system performance is optimized by run-
ning the AD1876 at or near its maximum sampling rate of
100 kHz and digitally filtering the resulting spectrum to elimi-
nate undesired frequencies.
DSP INTERFACE
Figure 8 illustrates the use of the Analog Devices ADSP-2101
digital signal processor with the AD1876. The ADSP-2101 FO
(flag out) pin of serial port 1 (SPORT 1) is connected to the
SAMPLE line and is used to control acquisition of data. The
ADSP-2101 timer is used to provide precise timing of the FO
pin.
The SCLK pin of the ADSP-2101 SPORT0 provides the CLK
input for the AD1876. The clock should be programmed to be
approximately 2 MHz to comply with AD1876 specifications.
To minimize digital feedthrough, the clock should be disabled
(by setting Bit 14 in SPORT0 control register to 0) during data
acquisition. Since the clock floats when disabled, a pull-down
resistor of 12 k–15 k should be connected to SCLK to ensure
it will be LOW at the falling edge of SAMPLE. To maximize
the conversion rate, the serial clock should be enabled immedi-
ately after SAMPLE is brought LOW (hold mode).
The AD1876 BUSY signal is connected to RF0 to notify
SPORT0 when a new data word is coming. SPORT0 should be
configured in normal, external, noninverting framing mode and
OUTPUT
OUTPUT
DINR
DINL
BBC
SH
PORT Ø
SERIAL
ADSP-2101
1
Figure 8. ADSP-2101 Interface
MSB
MSB
SCLK0
2
2
RFS0
TFS0
DR0
DT0
FO
3
3
4
4
5
5
6
6
7
7
CHANNEL
CHANNEL
8
8
BUSY
RIGHT
CLK
D
INPUT
SAMPLE
INPUT
LEFT
OUT
9
9
Figure 9. AD1876 and SM5805 Digital Filter
Rm
AD1876
Lm
10
10
10
10
11
11
*ADDITIONAL PINS OMITTED FOR CLARITY
Figure 10. SM5805 Timing Diagram
CLK SAMPLE
CLK SAMPLE
V
V
AD1876*
AD1876*
2
IN
2
IN
12
12
D
D
13
13
OUT
OUT
1
1
14
14
3
3
15
15
1/f (f = 48kHz)
17
16
18
8
LSB
s
LSB
SH
BBC
IBLK
s
–10–
DINR ISLB IBPOL U/O
DINL
5
4
can be programmed to generate an interrupt after the last data
bit is received. To maximize the conversion rate, SAMPLE
should be brought HIGH immediately after the last data bit is
received.
SIGNAL PROCESSING
An audio spectrum analyzer can be produced by combining an
AD1876 and an ADSP-2101 signal processing microcomputer.
This system can analyze signals from dc to 50 kHz depending
on the sample rate. This is ideal for applications such as audio
analysis, but could also be applied to vibration analysis as well.
AUDIO DELAY LINE
A high performance, 16-bit stereo delay line can be constructed
from two AD1876 audio ADCs, a signal processing microcom-
puter and two AD1856 audio DACs. Depending on the length
of the internal buffer which produces the delay, a variable delay
is possible. Other applications are also possible with only a
change in software. For example, a reverb or echo effect could
be generated as well.
AD1876 AND SM5805 DIGITAL FILTER @ 2 F
A simple method for generating the required signals for the
AD1876 is to connect one or more AD1876s to an NPC
SM5805 digital filter. This device supplies all signals required to
operate the AD1876 at a 96 kHz sample rate, which is 2 F
audio applications.
To minimize group delay distortion, the input to the AD1876 is
filtered only by a low order analog filter. The AD1876 samples
the output of the filter at 2 F
SM5805 filters the data with a sharp, linear phase filter rolling
off at 0.5 F
48 kSPS.
Interfacing the two chips is straightforward, as shown in Figure
9. The start signal for the AD1876 (for 96 kSPS operation) is
provided by the S/H pin of the SM5805, and CLK is derived
from the BCC pin. Figure 10 illustrates the corresponding tim-
ing diagram.
SM5805*
7
LEFT OPEN OR TIED
MSB
MSB
IPARA
6
10
TO +5V
2
2
LRCK
11
12
3
3
S
DOR
. The resulting data is decimated to a sample rate of
DOL
OFB
4
4
15
1F (48kHz)
S
5
5
25
24
CLOCK
Lm + 1
Rm + 1
6
6
DECIMATED
DATA, LEFT
DECIMATED
DATA, RIGHT
7
7
8
8
9
9
S
10
10
(96 kHz). To prevent aliasing, the
11
11
12
12
13
13
14
14
15
15
LSB
LSB
S
REV. A
S
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