LM2594M-ADJ National Semiconductor, LM2594M-ADJ Datasheet - Page 24
LM2594M-ADJ
Manufacturer Part Number
LM2594M-ADJ
Description
SWITCHING REG 0.5A ADJ, SMD, 2594
Manufacturer
National Semiconductor
Datasheet
1.LM2594M-5.0.pdf
(28 pages)
Specifications of LM2594M-ADJ
Primary Input Voltage
40V
No. Of Outputs
1
Output Voltage
37V
Output Current
500mA
Voltage Regulator Case Style
SOIC
No. Of Pins
8
Operating Temperature Range
-40°C To +125°C
Svhc
No SVHC
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
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Application Information
This circuit has hysteresis
C
C
This example uses the LM2594-5 to generate a −5V output,
but other output voltages are possible by selecting other out-
put voltage versions, including the adjustable version. Since
this regulator topology can produce an output voltage that is
either greater than or less than the input voltage, the maxi-
mum output current greatly depends on both the input and
output voltage. The curve shown in Figure 26 provides a
guide as to the amount of output load current possible for the
different input and output voltage conditions.
The maximum voltage appearing across the regulator is the
absolute sum of the input and output voltage, and this must
be limited to a maximum of 40V. For example, when convert-
ing +20V to −12V, the regulator would see 32V between the
input pin and ground pin. The LM2594 has a maximum input
voltage spec of 40V (60V for the LM2594HV).
Additional diodes are required in this regulator configuration.
Diode D1 is used to isolate input voltage ripple or noise from
coupling through the C
or no load conditions. Also, this diode isolation changes the
topology to closley resemble a buck configuration thus pro-
viding good closed loop stability. A Schottky diode is recom-
mended for low input voltages, (because of its lower voltage
drop) but for higher input voltages, a fast recovery diode
could be used.
Without diode D3, when the input voltage is first applied, the
charging current of C
eral volts for a short period of time. Adding D3 prevents the
output from going positive by more than a diode voltage.
IN
OUT
Regulator starts switching at V
Regulator stops switching at V
— 68 µF/25V Tant. Sprague 595D
— 22 µF/20V Tant. Sprague 595D
120 µF/35V Elec. Panasonic HFQ
39 µF/16V Elec. Panasonic HFQ
IN
IN
FIGURE 24. Undervoltage Lockout with Hysteresis for Inverting Regulator
can pull the output positive by sev-
capacitor to the output, under light
IN
IN
= 13V
= 8V
FIGURE 25. Inverting −5V Regulator with Delayed Startup
(Continued)
24
Because of differences in the operation of the inverting regu-
lator, the standard design procedure is not used to select the
inductor value. In the majority of designs, a 100 µH, 1A in-
ductor is the best choice. Capacitor selection can also be
narrowed down to just a few values. Using the values shown
in Figure 25 will provide good results in the majority of invert-
ing designs.
This type of inverting regulator can require relatively large
amounts of input current when starting up, even with light
loads. Input currents as high as the LM2594 current limit (ap-
prox 0.8A) are needed for at least 2 ms or more, until the out-
FIGURE 26. Inverting Regulator Typical Load Current
DS012439-39
DS012439-40
DS012439-41
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