Eval-Adm1075Mebz - Analog Devices EVAL-ADM1075MEBZ User Manual

EVAL-ADM1075MEBZ User Guide

EVAL-ADM1075MEBZ

The ADM1075 mini evaluation board (EVAL-ADM1075MEBZ)
is shown in Figure 3.
Thick wires should be used between the power supply and the
EVAL-ADM1075MEBZ board connector to minimize inductance.
The D_PWRGD LED illuminates green after the board is powered
and the ADM1075 GATE pin is high (FET fully enhanced).
Pressing the RESTART push-button triggers a shutdown that
lasts for 10 sec.
The board is intended to be plugged into a system where load
capacitance already exists. Two through-hole vias are provided
to allow the placement of a load capacitor on the board when
Specifications
Table 1.
Parameter
Undervoltage Rising Threshold, V
Undervoltage Falling Threshold, V
Overvoltage Rising Threshold, V
Overvoltage Falling Threshold, V
Trip Current
Regulation Current
Constant Power Level
Figure 3.
UVH
UVL
OVR
OVF
testing the board outside of a real system. All testing performed
on the board was done with a 330 μF load capacitor.
The EVAL-ADM1075MEBZ
maintain a 10 ms FET safe operating area. The undervoltage
and overvoltage thresholds were set using resistor dividers to
achieve the values shown in Table 1. A resistor divider was also
used on the ISET pin to set the current limit to approximately
15 A. The constant power level was set to the maximum allowable
level for the FET safe operating area to allow power-up in one
attempt. These values can all be fine-tuned further if necessary.
Isolation is required in most −48 V applications because there is
a large ground potential difference between the −48 V section
of the board and a PC or microcontroller.
EVAL-ADM1075MEBZ Board
Min Typ
−34.0 −35.0
−30.6 −31.5
−70.3 −72.4
−68.9 −71.4
12.1 12.75
12.9 13.3
127 135
Rev. A | Page 5 of 16
UG-548
uses a 470 nF timer capacitor to
Max Unit
−36.0 V
−32.4 V
−74.6 V
−74.0 V
13.4 A
13.8 A
142 W