MAX5886EGK+D Maxim Integrated Products, MAX5886EGK+D Datasheet - Page 14
MAX5886EGK+D
Manufacturer Part Number
MAX5886EGK+D
Description
IC DAC 12BIT 3.3V 500MSPS 68-QFN
Manufacturer
Maxim Integrated Products
Datasheet
1.MAX5886EGKD.pdf
(18 pages)
Specifications of MAX5886EGK+D
Settling Time
11ns
Number Of Bits
12
Data Interface
Parallel
Number Of Converters
1
Voltage Supply Source
Analog and Digital
Power Dissipation (max)
130mW
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
68-QFN Exposed Pad
Number Of Dac Outputs
1
Conversion Rate
500 MSPs
Resolution
12 bit
Interface Type
Serial
Supply Voltage (max)
3.465 V
Supply Voltage (min)
3.135 V
Maximum Operating Temperature
+ 85 C
Mounting Style
SMD/SMT
Maximum Power Dissipation
3333 mW
Minimum Operating Temperature
- 40 C
Supply Current
6.4 mA
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
individual carrier must be operated at less than
-12dB FS/-18dB FS to avoid waveform clipping.
The noise density requirements (Table 2) for a
GSM/EDGE-based system can again be derived from
the system’s Tx mask. With a worst-case noise level of
-80dBc at frequency offsets of ≥6MHz and a measure-
ment bandwidth of 100kHz, the minimum noise density
per hertz is calculated as follows:
Since random DAC noise adds to both the spurious tones
and to random noise from other circuit elements, it is rec-
ommended reducing the specification limits by about
10dB to allow for these additional noise contributions
while maintaining compliance with the Tx mask values.
Other key factors in selecting the appropriate DAC for
the Tx path of a multicarrier GSM/EDGE system is the
converter’s ability to offer superior IMD and MTPR perfor-
mance. Multiple carriers in a designated band generate
unwanted intermodulation distortion between the individ-
ual carrier frequencies. A multitone test vector usually
consists of several equally spaced carriers, usually four,
with identical amplitudes. Each of these carriers is rep-
resentative of a channel within the defined bandwidth of
interest. To verify MTPR, one or more tones are
removed such that the intermodulation distortion perfor-
mance of the DAC can be evaluated. Nonlinearities
associated with the DAC create spurious tones, some
of which may fall back into the area of the removed
tone, limiting a channel’s carrier-to-noise ratio. Other
spurious components falling outside the band of inter-
est can also be important, depending on the system’s
spectral mask and filtering requirements. Going back to
3.3V, 12-Bit, 500Msps High Dynamic
Performance DAC with Differential LVDS Inputs
Table 3. Summary of Important AC Performance Parameters for Multicarrier GSM/EDGE
Systems
*Measured within a 15MHz window.
14
SFDR
Noise Spectral Density
IMD
Carrier Amplitude
______________________________________________________________________________________
SNR
SPECIFICATION
MIN
= -80dBc - 10
SNR
MIN
= -130dBc/Hz
✕
log
SYSTEM TRANSMITTER
10
OUTPUT LEVELS
(100
-130dBc/Hz
-70dBc
80dBc
N/S
✕
10
3
Hz)
DAC REQUIREMENTS WITH
the GSM/EDGE Tx mask, the IMD specification for adja-
cent carriers varies somewhat among the different GSM
standards. For the PCS1800 and GSM850 standards,
the DAC must meet an average IMD of -70dBc.
Table 3 summarizes the dynamic performance require-
ments for the entire Tx signal chain in a four-carrier
GSM/EDGE-based system and compares the previous-
ly established converter requirements with a new-gen-
eration high dynamic performance DAC.
The four-tone MTPR plot in Figure 12 demonstrates the
MAX5886’s excellent dynamic performance. The center
frequency (f
allow detection and analysis of intermodulation or spuri-
ous components falling back into this empty spot from
adjacent channels. The four carriers are observed over
a 12MHz bandwidth and are equally spaced at 1MHz.
Each individual output amplitude is backed off to -12dB
FS. Under these conditions, the DAC yields an MTPR
performance of -78dBc.
Grounding and power-supply decoupling can strongly
influence the performance of the MAX5886. Unwanted
digital crosstalk may couple through the input, refer-
ence, power supply, and ground connections, affecting
dynamic performance. Proper grounding and power-
Table 2. GSM/EDGE Noise Requirements
for Multicarrier Systems
NUMBER OF
CARRIERS
Grounding, Bypassing, and Power-Supply
-152dB FS/Hz
2
4
MARGINS
-12dB FS
-75dBc
86dBc
CENTER
POWER LEVEL
CARRIER
(dB FS)
-12
= 32MHz) has been removed to
-6
MAX5886 SPECIFICATIONS
DAC NOISE DENSITY
-154dB FS/Hz
Considerations
REQUIREMENT
-12dB FS
90dBc*
-85dBc
(dB FS/Hz)
-146
-152
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