ADS7835E Burr-Brown Corporation, ADS7835E Datasheet - Page 9
ADS7835E
Manufacturer Part Number
ADS7835E
Description
12-Bit/ High-Speed/ Low Power Sampling ANALOG-TO-DIGITAL CONVERTER
Manufacturer
Burr-Brown Corporation
Datasheet
1.ADS7835E.pdf
(13 pages)
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clock cycle is the first of the conversion.)
In addition, if CONV is completely asynchronous to CLK
and CLK is continuous, there is the possibility that CLK will
transition just prior to CONV going LOW. If this occurs
faster than the 10ns indicated by t
some digital feedthrough may be coupled onto the hold
capacitor. This could cause a small offset error for that
particular conversion.
Thus, there are two basic ways to operate the ADS7835.
CONV can be synchronous to CLK and CLK can be con-
tinuous. This would be the typical situation when interfacing
the converter to a digital signal processor. The second
method involves having CONV asynchronous to CLK and
gating the operation of CLK (a non-continuous clock). This
method would be more typical of an SPI-like interface on a
microcontroller. This method would also allow CONV to be
generated by a trigger circuit and to initiate (after some
delay) the start of CLK. These two methods are covered
under the DSP Interfacing and SPI Interfacing sections of
this data sheet.
POWER-DOWN TIMING
The conversion timing shown in Figure 3 does not result in
the ADS7835 going into the power-down mode. If the
conversion rate of the device is high (approaching 500kHz),
there is very little power that can be saved by using the
power-down mode. However, since the power-down mode
incurs no conversion penalty (the very first conversion is
valid) at lower sample rates, significant power can be saved
by allowing the device to go into power-down mode be-
FIGURE 3. Basic Conversion Timing.
SAMPLE/HOLD
CONVERSION
INTERNAL
MODE
STATE
CONV
DATA
CLK
NOTES: (1) Clock periods 14 and 15 are shown for clarity, but are not required for proper operation of the ADS7835, provided that the
minimum t
mode occurs on the falling edge of CONV. This transition is not dependent on CLK. (3) The device remains fully powered when
operated as shown. If the sample time is longer than 3 clock periods, power consumption can be reduced by allowing the device to
enter a power-down mode. See the Power-Down Timing section for more information.
14
t
t
CKCH
CVHD
SAMPLE
(1)
ACQ
15
IDLE
time is met. The CLK input may remain HIGH or LOW during this period. (2) The transition from sample mode to hold
(2)
16
CKCH
t
, there is a chance that
1
CKCS
t
t
CVL
CKDE
(MSB)
D11
2
CONVERSION IN PROGRESS
D10
3
HOLD
t
CONV
D9
4
9
tween conversions.
Figure 4 shows the typical method for placing the A/D into
the power-down mode. If CONV is kept LOW during the
conversion and is LOW at the start of the 13th clock cycle,
the device enters the power-down mode. It remains in this
mode until the rising edge of CONV. Note that CONV must
be HIGH for at least t
properly as well as to power-up the internal nodes.
There are two different methods for clocking the ADS7835.
The first involves scaling the CLK input in relation to the
conversion rate. For example, an 8MHz input clock and the
timing shown in Figure 3 results in a 500kHz conversion
rate. Likewise, a 1.6MHz clock would result in a 100kHz
conversion rate. The second method involves keeping the
clock input as close to the maximum clock rate as possible
and starting conversions as needed. This timing is similar to
that shown in Figure 4. As an example, a 50kHz conversion
rate would require 160 clock periods per conversion instead
of the 16 clock periods used at 500kHz.
The main distinction between the two is the amount of time
that the ADS7835 remains in power-down. In the first mode,
the converter only remains in power-down for a small
number of clock periods (depending on how many clock
periods there are per each conversion). As the conversion
rate scales, the converter always spends the same percentage
of time in power-down. Since less power is drawn by the
digital logic, there is a small decrease in power consump-
tion, but it is very slight. This effect can be seen in the
D2
11
D1
12
(LSB)
D0
13
t
CVCK
ACQ
t
CKSP
in order to sample the signal
SAMPLE
IDLE ( 3)
ADS7835
t
14
ACQ
t
CKDD
15
16
HOLD
1
®
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