MAX5890EVKIT# Maxim Integrated Products, MAX5890EVKIT# Datasheet - Page 9
MAX5890EVKIT#
Manufacturer Part Number
MAX5890EVKIT#
Description
KIT EVALUATION FOR MAX5890
Manufacturer
Maxim Integrated Products
Specifications of MAX5890EVKIT#
Number Of Dac's
1
Number Of Bits
14
Outputs And Type
1, Differential
Sampling Rate (per Second)
600M
Data Interface
Parallel
Settling Time
11ns
Dac Type
Current
Voltage Supply Source
Analog and Digital
Operating Temperature
-40°C ~ 85°C
Utilized Ic / Part
MAX5890
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
The MAX5890 high-performance, 14-bit, current-steer-
ing DAC (see the Functional Diagram) operates with
DAC update rates up to 600Msps. The current-steering
array generates differential full-scale currents in the
2mA to 20mA range. An internal current-switching net-
work, in combination with external 50Ω termination
resistors, converts the differential output currents into a
differential output voltage with a 0.1V to 1V peak-to-
peak output voltage range. The analog outputs have a
-1.0V to +1.1V voltage compliance. For applications
requiring high dynamic performance, use the differen-
tial output configuration and limit the output voltage
swing to ±0.5V at each output. An integrated 1.2V
bandgap reference, control amplifier, and user-selec-
table external resistor determine the data converter’s
full-scale output range.
The MAX5890 operates with the internal 1.2V bandgap
reference or an external reference voltage source.
REFIO serves as the input for an external, low-imped-
ance reference source or as a reference output when
the DAC operates in internal reference mode. For sta-
ble operation with the internal reference, bypass REFIO
to AGND with a 0.1µF capacitor. The REFIO output
resistance is 10kΩ. Buffer REFIO with a high-input-
impedance amplifier when using it as a reference
source for external circuitry.
The MAX5890’s reference circuit (Figure 1) employs a
control amplifier to regulate the full-scale current,
I
Calculate the output current as follows:
where I
DAC. R
determines the amplifier’s full-scale output current for
the DAC. See Table 1 for a matrix of different I
and R
OUTFS
SET
Reference Architecture and Operation
, for the differential current outputs of the DAC.
I
14-Bit, 600Msps, High-Dynamic-Performance
OUTFS
OUTFS
SET
selections.
(located between FSADJ and DACREF)
is the full-scale output current of the
=
_______________________________________________________________________________________
32
×
Detailed Description
V
R
REFIO
SET
×
1
−
Architecture
2
14
1
OUTFS
The complementary current outputs (OUTP, OUTN) can
be connected in a single-ended or differential configu-
ration. A load resistor converts these two output cur-
rents into complementary single-ended output
voltages. A transformer or a differential amplifier con-
verts the differential voltage existing between OUTP
and OUTN to a single-ended voltage. When not using a
transformer, terminate each output with a 25Ω resistor
to ground and a 50Ω resistor between the outputs.
To generate a single-ended output, select OUTP as the
output and connect OUTN to AGND. Figure 2 shows a
simplified diagram of the internal output structure of the
MAX5890.
Table 1. I
Based on a Typical 1.200V Reference
Voltage
Figure 1. Reference Architecture, Internal Reference
Configuration
FULL-SCALE CURRENT
I
0.1µF
DAC with LVDS Inputs
REF
I
= V
REF
REFIO
I
OUTFS
R
/ R
SET
10
15
20
SET
2
5
OUTFS
(mA)
REFIO
FSADJ
DACREF
10kΩ
Analog Outputs (OUTP, OUTN)
REFERENCE
1.2V
and R
CALCULATED
SET
19.2k
7.68k
3.84k
2.56k
1.92k
Selection Matrix
CURRENT-SOURCE
R
ARRAY DAC
SET
(Ω)
1% EIA STD
19.1k
3.83k
2.55k
1.91k
7.5k
OUTN
OUTP
9
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