CDK1301ITQ44 Cadeka Microcircuits, CDK1301ITQ44 Datasheet - Page 11
CDK1301ITQ44
Manufacturer Part Number
CDK1301ITQ44
Description
Analog to Digital Converters - ADC A/D CONVERTER 8-BIT 250MSPS 425mW
Manufacturer
Cadeka Microcircuits
Datasheet
1.CDK1301ITQ44.pdf
(12 pages)
Specifications of CDK1301ITQ44
Rohs
yes
Number Of Channels
1
Architecture
Folding and Interpolating
Conversion Rate
250 MSPs
Resolution
8 bit
Input Type
Differential
Snr
45.4 dB
Operating Supply Voltage
4.75 V to 5.25 V
Maximum Operating Temperature
+ 85 C
Mounting Style
SMD/SMT
Package / Case
TQFP-44
Maximum Power Dissipation
425 mW
Minimum Operating Temperature
- 40 C
Number Of Converters
1
Voltage Reference
2.5 V
Data Sheet
selected transformer does not exhibit core saturation at
the full-scale voltage. Proper termination of the input is
important for input signal purity. A small capacitor across
the input attenuates kickback noise from the internal track-
and-hold.
Figure 6 illustrates a solution (based on operational ampli-
fiers) that can be used if a DC-coupled single-ended input
is desired.
Input Protection
All I/O pads are protected with an on-chip protection cir-
cuit. This circuit provides ESD robustness and prevents
latchup under severe discharge conditions without degrad-
ing analog transmission times.
Power Supplies and Grounding
The CDK1301 is operated from a single power supply in
the range of 4.75V to 5.25V. Normal operation is suggest-
ed to be 5.0V. All power supply pins should be bypassed
as close to the package as possible. The analog and digital
grounds should be connected together with a ferrite bead
as shown in the typical interface circuit and as close to the
ADC as possible.
Power-Down Mode
To save on power, the CDK1301 incorporates a power-
down function. This function is controlled by the signal on
pin PD. When pin PD is set high, the CDK1301 enters the
power-down mode. All outputs are set to high impedance.
In the powerdown mode the CDK1301 dissipates 24mW
typically.
©2008 CADEKA Microcircuits LLC
Conversion (power supplies and bypassing are not shown)
Figure 6. DC-Coupled Single-Ended to Differential
Common-Mode Voltage Reference Circuit
The CDK1301 has an on-board common-mode voltage
reference circuit (V
50µA loads typically. The circuit is commonly used to drive
the center tap of the RF transformer in fully differential
applications. For single-ended applications, this output
can be used to provide the level shifting required for the
single-to-differential converter conversion circuit. Bypass
V
Figure 3 on the previous page.
Clock Input
The clock input on the CDK1301 can be driven by
either a single-ended or double-ended clock circuit and
can handle TTL, PECL, and CMOS signals. When operating
at high sample rates it is important to keep the pulse width
of the clock signal as close to 50% as possible. For TTL/
CMOS single- ended clock inputs, the rise time of the signal
also becomes an important consideration.
Digital Outputs
The output circuitry of the CDK1301 has been designed
to be able to support three separate output modes. The
demuxed (double-wide) mode supports either parallel
aligned or interleaved data output. The single-channel mode
is not demuxed and can support direct output at speeds up
to 125 MSPS. The output format is straight binary (Table 1).
Table 1. Output Data Format
Ø indicates the flickering bit between logic 0 and 1
The data output mode is set using the DMODE
DMODE
the mode switching options.
Table 2. Output Data Modes
Parallel Dual Channel Output
Interleaved Dual Channel Output
Single Channel Data Output
(Bank A only 125 MSPS max)
CM
to AGND by external 0.01µF capacitor, as shown in
2
analog input
inputs (pins 32 & 31 respectively). Table 2 describes
+FS - 1 LSB
-FS + 1 LSB
output Mode
+1 FS
+FS
-FS
CM
). It is 2.5V and is capable of driving
output code D7–D0
DMoDe
1111 111Ø
1000 000Ø
0000 000Ø
1111 1111
0000 0000
0
0
1
www.cadeka.com
1
DMoDe
0
1
X
1
and
2
11
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