CS and R/C are internally OR’d and level triggered. There
is not a requirement which input goes LOW first when
initiating a conversion. If it is critical that CS or R/C initiate
the conversion, be sure the less critical input is LOW at least
10ns prior to the initiating input.
The nominal input impedance of 3.125kΩ results from the
combination of the internal resistor network shown on the
front page of the product data sheet and the external 50Ω
resistor. The input resistor divider network provides inherent
over-voltage protection guaranteed to at least ±25V. The
50Ω, 1% resistor does not compromise the accuracy or drift
of the converter. It has little influence relative to the internal
resistors, and tighter tolerances are not required.
To reduce the number of control pins, CS can be tied LOW
using R/C to control the read and convert modes. Note that
the parallel output will be active whenever R/C is HIGH and
no conversion is in progress. See the Reading Data section
and refer to Table I for control line functions for ‘read’ and
‘convert’ modes.
Note: The values shown for the internal resistors are for
reference only. The exact values can vary by ±30%. This is
true of all resistors internal to the ADS7819. Each resistive
divider is trimmed so that the proper division is achieved.
READING DATA
NOTE: (1) Full scale error includes offset and gain errors and is measured at
both +FS and –FS.
The ADS7819 outputs full parallel data in Binary Two’s
Complement data format. The parallel output will be active
when R/C (pin 23) is HIGH, CS (pin 24) is LOW, and no
conversion is in progress. Any other combination will tri-state
the parallel output. Valid conversion data can be read in a full
parallel, 12-bit word on D11-D0 (pins 6-13 and 15-18). Refer
to Table II for ideal output codes.
SYMBOL
DESCRIPTION
MIN
TYP
MAX UNITS
t1
t2
Convert Pulse Width
40
ns
Data Valid Delay
After Start of Conversion
965
70
1100
125
ns
t3
BUSY Delay
ns
After the conversion is completed and the output registers
have been updated, BUSY (pin 25) will go HIGH. Valid data
from the most recent conversion will be available on
D11-D0 (pins 6-13 and 15-18). BUSY going HIGH can be
used to latch the data. Refer to Table III and Figures 2 and 3.
From Start of Conversion
t4
t5
BUSY LOW
960
90
1085
ns
ns
BUSY Delay After
End of Conversion
t6
Aperture Delay
Conversion Time
Acquisition Time
Throughput Time
Bus Relinquish Time
20
940
180
1120
50
ns
ns
ns
ns
ns
ns
Note: For best performance, the external data bus connected
to D11-D0 should not be active during a conversion. The
switching noise of the external asynchronous data signals
can cause digital feed through degrading the converter’s
performance.
t7
1030
220
1250
83
t8
t7 & t8
t9
10
20
t10
BUSY Delay
65
100
The number of control lines can be reduced by tieing CS
LOW while using R/C to initiate conversions and activate
the output mode of the converter. See Figure 2.
After Data Valid
t11
t12
t13
R/C to CS
Setup Time
10
1250
10
ns
ns
ns
Time Between
Conversions
INPUT RANGES
Bus Access Time
30
62
The ADS7819 has a ±2.5V input range. Figures 4a and 4b
show the necessary circuit connections for the ADS7819
with and without external hardware trim. Offset and full
scale error(1) specifications are tested and guaranteed with
the 50Ω resistor shown in Figure 4b. This external resistor
makes it possible to trim the offset ±12mV using a trim pot
or trim DAC. This resistor may be left out if the offset and
gain errors will be corrected in software or if they are
negligible in regards to the particular application. See the
Calibration section of the data sheet for details.
TABLE III. Timing Specifications (TMIN to TMAX).
®
8
ADS7819