max5889 Maxim Integrated Products, Inc., max5889 Datasheet - Page 11
max5889
Manufacturer Part Number
max5889
Description
Max5889 12-bit, 600msps, High-dynamic-performance Dac With Lvds Inputs
Manufacturer
Maxim Integrated Products, Inc.
Datasheet
1.MAX5889.pdf
(16 pages)
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To achieve the best possible jitter performance, the
MAX5889 features flexible differential clock inputs
(CLKP, CLKN) that operate from a separate clock
power supply (AV
the DAC’s phase noise and wideband noise. To
achieve the best DAC dynamic performance, the
CLKP/CLKN input source must be designed carefully.
The differential clock (CLKN and CLKP) input can be
driven from a single-ended or a differential clock
source. Use differential clock drive to achieve the best
dynamic performance from the DAC. For single-ended
operation, drive CLKP with a low-noise source and
bypass CLKN to CGND with a 0.1µF capacitor.
Figure 4 shows a convenient and quick way of applying
a differential signal created from a single-ended source
using a wideband transformer. Alternatively, drive
CLKP/CLKN from a CMOS-compatible clock source.
Use sine wave or AC-coupled differential ECL/PECL
drive for best dynamic performance.
Figure 4. Differential Clock-Signal Generation
Figure 5. Differential-to-Single-Ended Conversion Using a Wideband RF Transformer
CLOCK SOURCE
SINGLE-ENDED
PERFORMS SINGLE-ENDED-TO-
WIDEBAND RF TRANSFORMER
DIFFERENTIAL CONVERSION
12-Bit, 600Msps, High-Dynamic-Performance
DATA INPUTS
1:1
D0–D11
Applications Information
LVDS
CLK
______________________________________________________________________________________
). Use a low-jitter clock to reduce
AGND
MAX5889
AGND
25Ω
25Ω
Clock Interface
0.1µF
0.1µF
OUTP
OUTN
TO DAC
CLKP
CLKN
50Ω
100Ω
50Ω
Use a pair of transformers (Figure 5) or a differential
amplifier configuration to convert the differential voltage
existing between OUTP and OUTN to a single-ended
voltage. Optimize the dynamic performance by using a
differential transformer-coupled output and limit the out-
put power to <0dBm full scale. To achieve the best
dynamic performance, use the differential transformer
configuration. Terminate the DAC as shown in Figure 5,
and use 50Ω termination at the transformer single-
ended output. This provides double 50Ω termination for
the DAC output network. With the double-terminated
output and 20mA full-scale current, the DAC produces a
full-scale signal level of approximately -2dBm. Pay close
attention to the transformer core saturation characteris-
tics when selecting a transformer for the MAX5889.
Transformer core saturation can introduce strong 2nd-
order harmonic distortion especially at low output fre-
quencies and high signal amplitudes. For best results,
connect the center tap of the transformer to ground.
When not using a transformer, terminate each DAC out-
put to ground with a 25Ω resistor. Additionally, place a
50Ω resistor between the outputs (Figure 6).
For a single-ended unipolar output, select OUTP as the
output and connect OUTN to AGND. Operating the
MAX5889 single-ended is not recommended because
it degrades the dynamic performance.
The distortion performance of the DAC depends on the
load impedance. The MAX5889 is optimized for 50Ω
differential double termination. Using higher termination
impedance degrades distortion performance and
increases output noise voltage.
T1, 1:1
DAC with LVDS Inputs
Differential Output Coupling Using a
WIDEBAND RF TRANSFORMER T2 PERFORMS THE
DIFFERENTIAL-TO-SINGLE-ENDED CONVERSION
T2, 1:1
V
OUT
Wideband RF Transformer
, SINGLE-ENDED
11
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