Texas Instruments Evaluation Board for the LM25066I LM25066I-EVM/NOPB LM25066I-EVM/NOPB Datenbogen
Produktcode
LM25066I-EVM/NOPB
V
PGDL
= 1.167V + [R4 x (1.167V + 24
P
A)]
R5
V
PGDH
=
1.167V x (R4 + R5)
R5
V
PGD(HYS)
= R4 x 24
P
A
R4 =
V
PGDH
- V
PGDL
24
P
A
=
V
PGD(HYS)
24
P
A
R5 =
1.167V x R4
(V
PGDH
- 1.167V)
VIN
UVLO/EN
OVLO
GND
10k
R3
R4
1.16V
1.16V
TIMER AND
GATE
LOGIC CONTROL
LM25066I/A
V
SYS
23 A
23 A
SNVS824C – JUNE 2012 – REVISED MARCH 2013
Figure 43. UVLO = POR
Option D: The OVLO function can be disabled by grounding the OVLO pin. The UVLO thresholds are set as
described in Option B or Option C.
described in Option B or Option C.
POWER GOOD
When the voltage at the FB pin increases above its threshold, the internal pulldown acting on the PGD pin is
disabled allowing PGD to rise to V
disabled allowing PGD to rise to V
PGD
through the pullup resistor, R
PG
, as shown in
. The pullup voltage
(V
PGD
) can be as high as 17V, and can be higher or lower than the voltages at VIN and OUT. VDD is a
convenient choice for V
PGD
as it allows interface to low voltage logic and avoids glitching on PGD during power-
up. If a delay is required at PGD, suggested circuits are shown in
In
A, capacitor C
PG
adds
delay to the rising edge, but not to the falling edge. In
B, the rising edge is delayed by R
PG1
+ R
PG2
and
C
PG
, while the falling edge is delayed a lesser amount by R
PG2
and C
PG
. Adding a diode across R
PG2
C) allows for equal delays at the two edges, or a short delay at the rising edge and a long delay at the
falling edge.
Setting the output threshold for the PGD pin requires two resistors (R4, R5) as shown in
. While
monitoring the output voltage is shown in
. R4 can be connected to any other voltage which requires
monitoring.
The resistor values are calculated as follows:
Choose the upper and lower threshold (V
PGDH
) and (V
PGDL
) at V
OUT
.
(34)
As an example, assume the application requires the following thresholds: V
PGDH
= 10.14V, and V
PGDL
= 9.9V.
Therefore V
PGD(HYS)
= 0.24V. The resistor values are:
R4 = 10 k
Ω
, R5 = 1.3 k
Ω
Where the R4 and R5 resistor values are known, the threshold voltages and hysteresis are calculated from the
following:
following:
(35)
28
Copyright © 2012–2013, Texas Instruments Incorporated
Product Folder Links: