KDC5512-50EVALZ Intersil, KDC5512-50EVALZ Datasheet - Page 17
KDC5512-50EVALZ
Manufacturer Part Number
KDC5512-50EVALZ
Description
DAUGHTER CARD FOR KDC5512
Manufacturer
Intersil
Datasheet
1.KAD5512P-50Q72.pdf
(30 pages)
Specifications of KDC5512-50EVALZ
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Jitter
In a sampled data system, clock jitter directly impacts the
achievable SNR performance. The theoretical relationship
between clock jitter (t
is illustrated in Figure 29.
This relationship shows the SNR that would be achieved if
clock jitter were the only non-ideal factor. In reality,
achievable SNR is limited by internal factors such as
linearity, aperture jitter and thermal noise. Internal aperture
jitter is the uncertainty in the sampling instant shown in
Figure 1. The internal aperture jitter combines with the input
clock jitter in a root-sum-square fashion, since they are not
statistically correlated, and this determines the total jitter in
the system. The total jitter, combined with other noise
sources, then determines the achievable SNR.
Voltage Reference
A temperature compensated voltage reference provides the
reference charges used in the successive approximation
operations. The full-scale range of each A/D is proportional
to the reference voltage. The nominal value of the voltage
reference is 1.25V.
Digital Outputs
Output data is available as a parallel bus in LVDS-compatible
or CMOS modes. In either case, the data is presented in
double data rate (DDR) format. Figures 1 and 2 show the
timing relationships for LVDS and CMOS modes, respectively.
Additionally, the drive current for LVDS mode can be set to a
nominal 3mA or a power-saving 2mA. The lower current
setting can be used in designs where the receiver is in close
physical proximity to the ADC. The applicability of this setting
is dependent upon the PCB layout, therefore the user should
experiment to determine if performance degradation is
observed.
SNR
100
95
90
85
80
75
70
65
60
55
50
1M
=
20 log
tj = 100ps
10
FIGURE 29. SNR vs CLOCK JITTER
⎛
⎝
------------------- -
2πf
1
IN
J
INPUT FREQUENCY (Hz)
t
) and SNR is shown in Equation 1 and
10M
J
⎞
⎠
tj = 10ps
17
tj = 1ps
tj = 0.1ps
100M
10 BITS
14 BITS
12 BITS
(EQ. 1)
KAD5512P-50
1G
The output mode and LVDS drive current are selected via
the OUTMODE pin as shown in Table 2.
The output mode can also be controlled through the SPI
port, which overrides the OUTMODE pin setting. Details on
this are contained in “Serial Peripheral Interface” on
page 20.
An external resistor creates the bias for the LVDS drivers. A
10kΩ, 1% resistor must be connected from the RLVDS pin to
OVSS.
Over Range Indicator
The over range (OR) bit is asserted when the output code
reaches positive full-scale (e.g. 0xFFF in offset binary
mode). The output code does not wrap around during an
over-range condition. The OR bit is updated at the sample
rate.
Power Dissipation
The power dissipated by the KAD5512P-50 is primarily
dependent on the sample rate and the output modes: LVDS
vs. CMOS and DDR vs. SDR. There is a static bias in the
analog supply, while the remaining power dissipation is
linearly related to the sample rate. The output supply
dissipation changes to a lesser degree in LVDS mode, but is
more strongly related to the clock frequency in CMOS mode.
Nap/Sleep
Portions of the device may be shut down to save power during
times when operation of the ADC is not required. Two power
saving modes are available: Nap, and Sleep. Nap mode
reduces power dissipation to less than 163mW and recovers
to normal operation in approximately 1µs. Sleep mode
reduces power dissipation to less than 6mW but requires
approximately 1ms to recover from a sleep command.
Wake-up time from sleep mode is dependent on the state of
CSB; in a typical application CSB would be held high during
sleep, requiring a user to wait 150µs max after CSB is
asserted (brought low) prior to writing ‘001x’ to SPI
Register 25. The device would be fully powered up, in
normal mode 1ms after this command is written.
Wake-up from Sleep Mode Sequence (CSB high)
• Pull CSB Low
• Wait 150us
• Write ‘001x’ to Register 25
• Wait 1ms until ADC fully powered on
OUTMODE PIN
AVDD
AVSS
Float
TABLE 2. OUTMODE PIN SETTINGS
LVDS, 3mA
LVDS, 2mA
LVCMOS
MODE
October 9, 2009
FN6805.3
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