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| LTC1851_15 Datasheet, PDF (17/28 Pages) Linear Technology – 8-Channel, 10-Bit/12-Bit, 1.25Msps Sampling ADCs | |||
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LTC1850/LTC1851
APPLICATIO S I FOR ATIO
the offset applied to the âââ input. For single-ended inputs,
this offset should be applied to the COM pin. For differen-
tial inputs, the âââ input is dictated by the MUX address.
For zero offset error, apply 0.5LSB (actual voltage will vary
with input span selected) to the â+â input and adjust the
offset at the âââ input until the output code flickers
between 0000 0000 0000 and 0000 0000 0001 for the
LTC1851 and between 00 0000 0000 and 00 0000 0001 for
the LTC1850.
As mentioned earlier, the internal reference is factory
trimmed to 2.500V. To make sure that the reference buffer
gain is not compensating for trim errors in the reference,
REFCOMP is trimmed to 4.096V with an accurate external
2.5V reference applied to REFIN. Likewise, to make sure
that the full-scale gain trim is not compensating for errors
in the reference buffer gain, the input full-scale gain is
trimmed with an accurate 4.096V reference applied to
REFCOMP (REFIN = 5V to disable the reference buffer).
This allows the use of either a 2.5V reference applied to
REFIN or a 4.096V reference applied to REFCOMP to
achieve accurate results. Full-scale errors can be trimmed
to zero by adjusting the appropriate reference voltage. For
unipolar inputs, an input voltage of FS â 1.5LSBs should
be applied to the â+â input and the appropriate reference
adjusted until the output code flickers between 1111 1111
1110 and 1111 1111 1111 for the LTC1851 and between
11 1111 1110 and 11 1111 1111 for the LTC1850.
For bipolar inputs, an input voltage of FS â 1.5LSBs should
be applied to the â+â input and the appropriate reference
adjusted until the output code flickers between 0111 1111
1110 and 0111 1111 1111 for the LTC1851 and between
01 1111 1110 and 01 1111 1111 for the LTC1850.
These adjustments as well as the factory trims affect all
channels. The channel-to-channel offset and gain error
matching are guaranteed by design to meet the specifica-
tions in the Converter Characteristics table.
OUTPUT DATA FORMAT
The LTC1850/LTC1851 have a 14-bit/16-bit parallel out-
put. The output word normally consists of a 10-bit/12-bit
conversion result data word and a 4-bit address (three
address bits A2OUT, A1OUT, A0OUT and the DIFFOUT bit).
The output drivers are enabled when RD is low provided
the chip is selected (CS is low). All 14/16 data output pins
and BUSY are supplied by OVDD and OGND to allow easy
interface to 3V or 5V digital logic.
The data format of the conversion result is automatically
selected and determined by the UNI/BIP input pin. If the
UNI/BIP pin is low indicating a unipolar input span
(0 â REFCOMP assuming PGA = 1), the format for the
data is straight binary with 1 LSB = FS/4096 (1mV for
REFCOMP = 4.096V) for the LTC1851 and 1LSB = FS/
1024 (4mV for REFCOMP = 4.096V) for the LTC1850.
If the UNI/BIP pin is high indicating a bipolar input span
(±REFCOMP/2 for PGA = 1), the format for the data is
twoâs complement binary with 1 LSB = [(+FS) â (â FS)]/
4096 (1mV for REFCOMP = 4.096V) for the LTC1851 and
1LSB = [(+FS) â (â FS)]/1024 (4mV for REFCOMP =
4.096V) for the LTC1850.
In both cases, the code transitions occur midway between
successive integer LSB values (i.e., â FS + 0.5LSB,
â FS + 1.5LSB, ... â 1.5LSB, â 0.5LSB, 0.5LSB, 1.5LSB, ...
FS â 1.5LSB, FS â 0.5LSB).
The three most significant bits of the data word (D11,
D10, and D9 for the LTC1851; D9, D8 and D7 for the
LTC1850) also function as output bits when reading the
contents of the programmable sequencer. During
readback, a 7-bit status word (S6-S0) containing the
contents of the current sequencer location is available
when RD is low. The individual bits of the status word are
outlined in Figure 1. During readback, the D8 to D0 pins
(LTC1851) or D6 to D0 pins (LTC1850) remain high
impedance irrespective of the state of RD.
18501f
17
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