CS5014-BL14Z Cirrus Logic Inc, CS5014-BL14Z Datasheet - Page 12
CS5014-BL14Z
Manufacturer Part Number
CS5014-BL14Z
Description
IC ADC 14BIT SELF-CALBR 44-PLCC
Manufacturer
Cirrus Logic Inc
Datasheet
1.CS5012A-BL7Z.pdf
(40 pages)
Specifications of CS5014-BL14Z
Number Of Bits
14
Sampling Rate (per Second)
56k
Data Interface
Parallel
Number Of Converters
1
Power Dissipation (max)
250mW
Voltage Supply Source
Analog and Digital, Dual ±
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
44-PLCC
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Other names
598-1075-5
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12
during conversion much like a hold capacitor in a
sample/hold amplifier.
The conversion consists of manipulating the free
plates of the capacitor array to VREF and AGND
to form a capacitive divider. Since the charge at
the floating node remains fixed, the voltage at
that point depends on the proportion of capaci-
tance tied to VREF versus AGND. The
successive-approximation algorithm is used to
find the proportion of capacitance, termed D in
Figure 2b, which when connected to the refer-
ence will drive the voltage at the floating node
(V
represents the converter’s digital output.
This charge redistribution architecture easily sup-
ports bipolar input ranges. If half the capacitor
array (the MSB capacitor) is tied to VREF rather
than AIN in the track mode, the input range is
doubled and is offset half-scale. The magnitude
of the reference voltage thus defines both positive
and negative full-scale (-VREF to +VREF), and
the digital code is an offset binary representation
of the input.
Calibration
The ability of the CS5012A/14/16 to convert ac-
curately clearly depends on the accuracy of their
comparator and DAC. The CS5012A/14/16 util-
ize an "auto-zeroing" scheme to null errors
introduced by the comparator. All offsets are
stored on the capacitor array while in the track
mode and are effectively subtracted from the in-
put signal when a conversion is initiated.
2-18
fn
) to zero. That binary fraction of capacitance
Master Clock
(Optional)
Sampling
Figure 3a. Asynchronous Sampling
Clock
CLKIN
HOLD
CS5012A/14/16
Auto-zeroing enhances power supply rejection at
frequencies well below the conversion rate.
To achieve complete accuracy from the DAC, the
CS5012A/14/16 use a novel self-calibration
scheme. Each bit capacitor, shown in Figure 1,
actually consists of several capacitors which can
be manipulated to adjust the overall bit weight.
An on-chip microcontroller adjusts the subarrays
to precisely ratio the bits. Each bit is adjusted to
just balance the sum of all less significant bits
plus one dummy LSB (for example, 16C = 8C +
4C + 2C + C + C). Calibration resolution for the
array is a small fraction of an LSB resulting in
nearly ideal differential and integral linearity.
DIGITAL CIRCUIT CONNECTIONS
The CS5012A/14/16 can be applied in a wide va-
riety of master clock, sampling, and calibration
conditions which directly affect the devices’ con-
version time and throughput. The devices also
feature on-chip 3-state output buffers and a com-
plete interface for connecting to 8-bit and 16-bit
digital systems. Output data is also available in
serial format.
Master Clock
The CS5012A/14/16 operate from a master clock
(CLKIN) which can be externally supplied or in-
ternally generated. The internal oscillator is
activated by externally tying the CLKIN input
low. Alternatively, the CS5012A/14/16 can be
synchronized to the external system by driving
the CLKIN pin with a TTL or CMOS clock sig-
nal.
Master Clock
(Optional)
CS5012A CS5014 CS5016
Figure 3b. Synchronous Sampling
CS5012A, CS5014, CS5016
HOLD
EOT
CLKIN
CS5012A/14/16
DS14F8
DS14F9
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