MAX5888AEGK MAXIM [Maxim Integrated Products], MAX5888AEGK Datasheet - Page 13
MAX5888AEGK
Manufacturer Part Number
MAX5888AEGK
Description
3.3V, 16-Bit, 500Msps High Dynamic Performance DAC with Differential LVDS Inputs
Manufacturer
MAXIM [Maxim Integrated Products]
Datasheet
1.MAX5888AEGK.pdf
(18 pages)
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Part Number:
MAX5888AEGK+D
Manufacturer:
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135
carriers spread their IM products over a bandwidth of
20MHz on either side of the 20MHz total carrier band-
width. In this four-carrier scenario, only the energy in
the first adjacent 3.84MHz side band is considered for
ACLR 1. To measure ACLR, drive the converter with a
WCDMA pattern. Make sure that the signal is backed
off by the peak-to-average ratio, such that the DAC is
not clipping the signal. ACLR can then be measured
with the ACLR measurement function built into your
spectrum analyzer.
Figure 9 shows the ACLR performance for a single
WCDMA carrier (f
applied to the MAX5888 (including measurement sys-
tem limitations*).
Figure 10 illustrates the ACLR test results for the
MAX5888 with a four-carrier WCDMA signal at an out-
put frequency of 61.44MHz and sampling frequency of
184.32MHz. Again, the noise floor of the instrument
restricts the signal’s real dynamic range of the signal,
and the measured ACLR 1 understates the actual by
more than 2.5dB. Considerable care must be taken to
ensure accurate measurement of this parameter.
Figure 9. ACLR for WCDMA Modulation, Single Carrier
*Note that due to their own IM effects and noise limitations, spectrum analyzers introduce ACLR errors, which can falsify the measure-
ment. For a single-carrier ACLR measurement greater than 70dB, these measurement limitations are significant, becoming even more
restricting for multicarrier measurement. Before attempting an ACLR measurement, it is recommended consulting application notes pro-
vided by major spectrum analyzer manufacturers that provide useful tips on how to use their instruments for such tests.
Performance DAC with Differential LVDS Inputs
-100
-110
-120
-125
-25
-30
-40
-50
-60
-70
-80
-90
CLK
______________________________________________________________________________________
= 184.32MHz, f
3.5MHz/div
3.3V, 16-Bit, 500Msps High Dynamic
f
CENTER
f
CLK
= 184.32Mbps
ACLR = 73dB
= 61.44MHz
OUT
= 61.44MHz)
The transmitter sections of multicarrier base station
transceiver systems for GSM/EDGE usually present
communication DAC manufacturers with the difficult
task of providing devices with higher resolution, while
simultaneously reducing noise and spurious emissions
over a desired bandwidth.
To specify noise and spurious emissions from base sta-
tions, a GSM/EDGE Tx mask is used to identify the DAC
requirements for these parameters. This mask shows
that the allowable levels for noise and spurious emis-
sions are dependent on the offset frequency from the
transmitted carrier frequency. The GSM/EDGE mask
and its specifications are based on a single active car-
rier with any other carriers in the transmitter being dis-
abled. Specifications displayed in Figure 11 support
per-carrier output power levels of 20W or greater.
Lower output power levels yield less stringent emission
requirements. For GSM/EDGE applications, the DAC
demands spurious emission levels of less than -80dBc
for offset frequencies ≥6MHz. Spurious products from
the DAC can combine with both random noise and spu-
rious products from other circuit elements. The spuri-
ous products from the DAC should therefore be backed
off by 6dB more to allow for these other sources and
still avoid signal clipping.
Figure 10. ACLR for WCDMA Modulation, Four Carriers
-100
-110
-120
-130
-30
-40
-50
-60
-70
-80
-90
Multitone Testing for GSM/EDGE
f
f
ACLR = 65dB
CENTER
CLK
3.5MHz/div
= 184.32Mbps
= 61.44MHz
Applications
13
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