LTC1142HVCG Linear Technology, LTC1142HVCG Datasheet - Page 16
LTC1142HVCG
Manufacturer Part Number
LTC1142HVCG
Description
IC SW REG STEP-DOWN DUAL 28-SSOP
Manufacturer
Linear Technology
Type
Step-Down (Buck)r
Datasheet
1.LTC1142CG.pdf
(20 pages)
Specifications of LTC1142HVCG
Internal Switch(s)
No
Synchronous Rectifier
Yes
Number Of Outputs
2
Voltage - Output
3.3V, 5V
Current - Output
50mA
Frequency - Switching
250kHz
Voltage - Input
3.5 ~ 18 V
Operating Temperature
0°C ~ 70°C
Mounting Type
Surface Mount
Package / Case
28-SSOP
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Power - Output
-
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
LTC1142HVCG
Manufacturer:
LINEAR/凌特
Quantity:
20 000
Part Number:
LTC1142HVCG-ADJ
Manufacturer:
LT/凌特
Quantity:
20 000
APPLICATIO S I FOR ATIO
LTC1142/LTC1142L/LTC1142HV
4. Does the (+) plate of C
5. Is the input decoupling capacitor (1 F/0.22 F) con-
6. Are the shutdown Pins 2 and 16 for the LTC1142 (Pins
7. For the LTC1142-ADJ adjustable applications, the re-
Output Crowbar
An added feature to using an N-channel MOSFET as the
synchronous switch is the ability to crowbar the output
with the same MOSFET. Pulling the C
1.5V when the output voltage is greater than the desired
regulated value will turn “on” the N-channel MOSFET for
that regulator section.
A fault condition which causes the output voltage to go
above a maximum allowable value can be detected by
external circuitry. Turning on the N-channel MOSFET
when this fault is detected will cause large currents to flow
and blow the system fuse.
The N-channel MOSFET needs to be sized so it will safely
handle this overcurrent condition. The typical delay from
pulling the C
is 250ns. Note: Under shutdown conditions, the N-chan-
nel is held OFF and pulling the C
the N-channel MOSFET to crowbar the output.
A simple N-channel FET can be used as an interface
between the overvoltage detect circuitry and the LTC1142
as shown in Figure 8.
16
ing with Kelvin connections. Be sure to use a PCB
pattern similar to that shown in Figure 7 for the current
sense resistors.
P-channel MOSFET as closely as possible? This capaci-
tor provides the AC current to the P-channel MOSFET.
nected closely between Pin 24 (10) and power ground
[Pin 4 (18) for the LTC1142, Pin 5 (19) for the LTC1142-
ADJ]? This capacitor carries the MOSFET driver peak
currents.
3 and 17 for the LTC1142-ADJ) actively pulled to
ground during normal operation? Both Shutdown pins
are high impedance and must not be allowed to float.
Both pins can be driven by the same external signal if
needed.
sistive divider R1, R2 must be connected between the
(+) plate of C
T
pin high and the NDrive Pin 6 (20) going high
OUT
U
and signal ground.
IN
U
connect to the source of the
T
pin high will not cause
W
T
, Pin 25 (11) above
U
Troubleshooting Hints
Since efficiency is critical to LTC1142 applications, it is
very important to verify that the circuit is functioning
correctly in both continuous and Burst Mode operation.
The waveform to monitor is the voltage on the C
and 11.
In continuous mode (I
pin should be a sawtooth with a 0.9V
voltage should never dip below 2V as shown in Figure 9a.
When load currents are low (I
operation occurs. The voltage on the C
ground for periods of time as shown in Figure 9b.
Inductor current should also be monitored. Look to verify
that the peak-to-peak ripple current in continuous mode
operation is approximately the same as in Burst Mode
operation.
If Pin 25 or Pin 11 is observed falling to ground at high
output currents, it indicates poor decoupling or improper
grounding. Refer to the Board Layout Checklist.
Auxiliary Windings––Suppressing Burst Mode
Operation
The LTC1142 synchronous switch removes the normal
limitation that power must be drawn from the inductor
primary winding in order to extract power from auxiliary
windings. With synchronous switching, auxiliary outputs
(ACTIVE WHEN V
OFF WHEN V
FROM CROWBAR
Figure 8. Output Crowbar Interface
DETECT CIRCUIT
GATE
(a) CONTINUOUS MODE OPERATION
GATE
Figure 9. C
= GND)
(b) Burst Mode OPERATION
= V
LOAD
IN
> I
T
Waveforms
BURST
LOAD
VN2222LL
PIN 26(12)
PIN 25(11)
) the voltage on the C
< I
BURST
T
P-P
INT V
C
pin now falls to
T
LTC1142
) Burst Mode
CC
swing. This
1142 F08
T
, Pins 25
1142 F09
0V
3.3V
0V
3.3V
T
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