MAX125EVB16 Maxim Integrated Products, MAX125EVB16 Datasheet - Page 11
MAX125EVB16
Manufacturer Part Number
MAX125EVB16
Description
EVAL KIT FOR MAX125
Manufacturer
Maxim Integrated Products
Specifications of MAX125EVB16
Number Of Adc's
4
Number Of Bits
14
Sampling Rate (per Second)
250k
Data Interface
Parallel
Inputs Per Adc
2 Single
Input Range
±5 V
Power (typ) @ Conditions
165mW @ 250kSPS
Voltage Supply Source
Analog and Digital, Dual ±
Operating Temperature
0°C ~ 70°C
Utilized Ic / Part
MAX125
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
1ppm/°C (max) temperature drift. Connect an external
reference at REFIN as shown in Figure 7. The minimum
impedance is 7kΩ for DC currents in both normal oper-
ation and shutdown. Bypass REFOUT with a 4.7µF low-
ESR capacitor.
When power is first applied, the internal power-on-reset
circuitry activates the MAX125/MAX126 with INT =
high, ready to convert. The default conversion mode is
Input Mux A/Single-Channel Conversion. See the
Programming Modes section if other configurations are
desired.
After the power supplies have been stabilized, the reset
time is 5µs; no conversions should be performed
during this phase. At power-up, data in memory is
undefined.
Software power-down is activated by setting bit A3 of
the control word high (Table 1). It is asserted after the
WR or CS rising edge, at which point the ADC immedi-
ately powers down to a low quiescent-current state.
AV
to less than 1mA. The ADC blocks and reference buffer
are turned off, but the digital interface and the refer-
ence remain active for fast power-up recovery. Wake
up the MAX125/MAX126 by writing a control word
(A0–A3, Table 1). The bidirectional interface interprets
a logic zero at A3 as the start signal and powers up in
the mode selected by A0, A1, and A2. The reference
Figure 7. External Reference
DD
TO DAC
MAX125
MAX126
drops to less than 1.5mA, and AV
2.5V
______________________________________________________________________________________
A
V
= 1
10k
REFOUT
REFIN
2x4-Channel, Simultaneous-Sampling
Software Power-Down
7
6
Power-On Reset
(2.5V)
(2.5V)
OUT
SS
4.7 F
MAX6325
is reduced
buffer’s settling time and the bypass capacitor’s value
dominate the power-up delay. With the recommended
4.7µF at REFOUT, the power-up delay is typically 5µs.
The MAX125/MAX126 have bipolar input ranges. Fig-
ure 8 shows the bipolar/output transfer function. Code
transitions occur at successive-integer least significant
bit (LSB) values. Output coding is twos-complement
binary with 1LSB = 610µV for the MAX125 and
1LSB = 305µV for the MAX126.
An output demultiplexer circuit is useful for isolating
data from one channel in a four-channel conversion
sequence. Figure 9’s circuit uses the external 16MHz
clock and the INT signal to generate four RD pulses
and a latch clock to save data from the desired chan-
nel. CS must be low during the four RD pulses. The
channel is selected with the binary coding of two
switches. A 16-bit 16373 latch simplifies layout.
Vector motor control requires monitoring of the individ-
ual phase currents. In their most basic application, the
MAX125/MAX126 simultaneously sample two currents
(CH1A and CH2A, Figure 10) and preserve the neces-
sary relative phase information. Only two of the three
phase currents have to be digitized, because the third
component can be mathematically derived with a coor-
dinate transformation.
Figure 8. Bipolar Transfer Function
FS = 2 x V
FS = V
011 . . . 111
011 . . . 110
000 . . . 010
000 . . . 001
000 . . . 000
111 . . . 111
111 . . . 110
111 . . . 101
100 . . . 001
100 . . . 000
REFOUT
REFOUT
OUTPUT CODE
(MAX126)
(MAX125)
1LSB =
- FS
4V
Motor-Control Applications
16384
REFOUT
INPUT VOLTAGE (LSB)
Output Demultiplexer
14-Bit DAS
ZERO
Transfer Function
+FS - 1LSB
11
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