AD7890BNZ-2 Analog Devices Inc, AD7890BNZ-2 Datasheet - Page 16
AD7890BNZ-2
Manufacturer Part Number
AD7890BNZ-2
Description
IC,Data Acquisition System,8-CHANNEL,12-BIT,DIP,24PIN,PLASTIC
Manufacturer
Analog Devices Inc
Type
Data Acquisition System (DAS)r
Datasheet
1.AD7890ARZ-10.pdf
(28 pages)
Specifications of AD7890BNZ-2
Resolution (bits)
12 b
Sampling Rate (per Second)
117k
Data Interface
Serial
Voltage Supply Source
Single Supply
Voltage - Supply
0 V ~ 2.5 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Through Hole
Package / Case
24-DIP (0.300", 7.62mm)
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
AD7890
C
The C
how long after a new channel address is written to the part that
a conversion can take place. The reason behind this is two-fold.
First, when the input channel to the AD7890 is changed, the
input voltage on this new channel is likely to be very different
from the previous channel voltage. Therefore, the part’s track/
hold has to acquire the new voltage before an accurate
conversion can take place. An internal pulse delays any
conversion start command (as well as the signal to send the
track/hold into hold) until after this pulse has timed out.
The second reason is to allow the user to connect external
antialiasing or signal conditioning circuitry between the
MUX OUT pin and the SHA IN pin. This external circuitry
introduces extra settling time into the system. The C
provides a means for the user to extend the internal pulse to
take this extra settling time into account. Effectively varying the
value of the capacitor on the C
internal pulse. Figure 9 shows the relationship between the
value of the C
EXT
FUNCTIONING
64
56
48
40
32
24
16
EXT
8
0
0
input on the AD7890 provides a means of determining
250
EXT
Figure 9. Internal Pulse Width vs. C
capacitor and the internal delay.
500
C
EXT
750
CAPACITANCE (pF)
1000
T
EXT
A
= +85°C
pin varies the duration of the
1250
T
A
= +25°C
T
1500
A
= –40°C
EXT
1750
EXT
2000
pin
Rev. C | Page 16 of 28
The duration of the internal pulse can be seen on the C
The C
the part is initiated (on the falling edge of TFS ). It starts to
discharge on the sixth falling edge of SCLK in the serial write
operation. Once the C
nominal trigger point of 2.5 V, the internal pulse is timed out.
The internal pulse is initiated each time a write operation to the
control register takes place. As a result, the pulse is initiated and
the conversion process delayed for all software conversion start
commands. For hardware conversion start, it is possible to
separate the conversion start command from the internal pulse.
If the multiplexer output (MUX OUT) is connected directly to
the track/hold input (SHA IN), then no external settling has to
be taken into account by the internal pulse width. In applications
where the multiplexer is switched and conversion is not
initiated until more than 2 μs after the channel is changed (as is
possible with a hardware conversion start), the user does not
have to worry about connecting any capacitance to the
C
the AD7890. In applications where the multiplexer is switched
and conversion is initiated at the same time (such as with a
software conversion start), a 120 pF capacitor should be
connected to C
track/hold before conversion is initiated.
If external circuitry is connected between the MUX OUT pin
and SHA IN pin, then the extra settling time introduced by this
circuitry must be taken into account. In the case where the
multiplexer change command and the conversion start
command are separated, they need to be separated by greater
than the acquisition time of the AD7890 plus the settling time
of the external circuitry if the user does not have to worry about
the C
switched and conversion is initiated at the same time (such as
with a software conversion start), the capacitor on C
allow for the acquisition time of the track/hold and the settling
time of the external circuitry before conversion is initiated.
EXT
pin. The 2 μs equates to the track/hold acquisition time of
EXT
EXT
capacitance. In applications where the multiplexer is
pin goes from a low to a high when a serial write to
EXT
to allow for the acquisition time of the
EXT
pin has discharged to crossing its
EXT
EXT
needs to
pin.
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