ETC PT6202

For assistance or to order, call
(800) 531-5782
PT6200
SLTS063
Series
2 AMP HIGH-PERFORMANCE ADJUSTABLE
ISR WITH ON/OFF CONTROL
•
•
•
•
•
•
90% Efficiency
Adjustable Output Voltage
Internal Short Circuit Protection
Over-Temperature Protection
On/Off Control (Ground Off)
Small SIP Footprint
0.36" x 1.64" x 0.60"(H)
The PT6200 Series is a line of
High-Performance 2 Amp, 12-Pin SIP
(Single In-line Package) Integrated
Switching Regulators (ISRs) designed
Pin-Out Information
Standard Application
VO Adjust
12
9,10
3,4
VIN
(+)
VOUT
(+)
PT6100/6200
1
C1
Q1
C2
5,6,7,8
INH
Pin No. Function
1
Inhibit
2
N/C
3
Vin
4
Vin
5
GND
6
GND
Ordering Information
Pin No. Function
7
GND
8
GND
9
Vout
10
Vout
11
N/C
12
Vout Adj
COM
COM
PT6202■ = +5 Volts
PT6203■ = +3.3 Volts
PT6204■ = +12 Volts
(For dimensions, see page 65.)
PT Series Suffix (PT1234X)
Case/Pin
Configuration
Vertical Through-Hole
Heat Tab Configuration
None
Side
N
A
C
Horizontal Through-Hole
C1 = Optional ceramic (1µF)
Q1 = NFET
C2 = Required 100µF electrolytic
Horizontal Surface Mount
1
R
G
B
(See Thermal Application Notes on page 44 for heat tab
application data.)
12
Specifications
PT6200 SERIES
Characteristics
(TA=25C unless note d)
Symbols
Conditions
Min
Typ
Max
Units
Output Current
Io
Over Vin range
0.1**
—
2.0
Amps
Current Limit
Icl
Vin = Vo + 5V
—
3.5
4.5
Amps
Short Circuit Current
Isc
Vin = Vo + 5V
—
5.0
—
Apk
Input Voltage Range
Vin
0.1 ≤ Io ≤ 2.0 Amp
7
7.25
14.5
—
—
—
26
30
30
VDC
VDC
VDC
Static Voltage Tolerance
Vo
Over Vin Range, Io = 2.0 Amp
TA = -40˚ C to shutdown
—
±1.0
±2.0
%Vo
Line Regulation
Reg line
Over Vin range
—
±0.25
±0.5
%Vo
Load Regulation
Reg load
0.1 ≤ Io ≤ 2.0 Amp
—
±0.25
±0.5
%Vo
Ripple/Noise
Vn
Vin = Vo + 5V, I o = 2.0 Amp
—
±2
—
%Vo
Transient Response
with Co = 100µF
ttr
Vos
50% load change
Vo over/undershoot
—
—
100
3.0
200
5.0
µSec
%Vo
Efficiency
η
Vin=8V, I o = 0.5 Amp,Vo = 3.3V
Vin=8V, I o = 0.5 Amp,Vo = 5V
Vin=15V, I o = 0.5 Amp,Vo = 12V
—
—
—
85
90
93
—
—
—
%
%
%
Switching Frequency
ƒo
Over Vin and Io ranges,
400
500
500
500
650
650
600
800
800
KHz
KHz
KHz
Shutdown Current
Isc
Vin = 15V
—
100
—
µAmp
Quiescent Current
Inl
Io = 0A, Vin =10V
—
10
—
mAmp
Output Voltage
Adjustment Range
Vo
Below Vo
Above Vo
See Application Notes on page 40.
Operating Temperature
TA
Free Air Convection,
(40-60LFM)
Over Vin and Io ranges
3.3V
5V
12V
-40
-40
-40
—
—
—
+85*
+60*
Vo = 3.3V
Vo = 5V
Vo = 12V
—
—
—
25
30
35
—
—
—
C/W
-40
—
+125
C
Vo = 3.3V
Vo = 5V
Vo = 12V
Vo = 3.3V
Vo = 5V
Vo = 12V
C
*
Thermal Resistance
θJA
Free Air Convection
(40-60LFM)
Storage Temperature
Ts
—
Mechanical Shock
Per Mil-STD-883D, Method 2002.3 Condition A, 1 msec, Half Sine,
mounted to a fixture
—
—
500
G’s
Mechanical Vibration
Per Mil-STD-883D, Method 2007.2 Condition A, 20-2000 Hz
—
—
15
G’s
Weight
—
—
—
8.5
—
grams
Relative Humidity
—
Non-condensing
0
—
95
%
*See Thermal Derating chart.
** ISR will operate down to no load with reduced specifications.
Note: The PT6200 Series requires a 100µF electrolytic or tantalum output capacitor for proper operation in all applications.
20
to meet the on-board power
conversion needs of battery powered or
other equipment requiring high
efficiency and small size. This high
performance ISR family offers a unique
combination of features combining
90% typical efficiency with
open-collector on/off control and
adjustable output voltage. Quiescent
current in the shutdown mode is less
than 100µA.
Power Trends, Inc. 27715 Diehl Road, Warrenville, IL 60555 (800) 531-5782 Fax: (630) 393-6902
For assistance or to order, call
C H A R A C T E R I S T I C
(800) 531-5782
D A T A
PT6203, 3.3 VDC
PT6202, 5.0 VDC
PT6204, 12.0 VDC
(See Note 1)
(See Note 1)
(See Note 1)
Efficiency vs Output Current
Efficiency vs Output Current
Efficiency vs Output Current
100
100
100
Vin
90
7.0V
80
10.0V
70
12.0V
15.0V
60
90
7.0V
8.0V
80
10.0V
70
15.0V
20.0V
60
Efficiency - %
Vin
Efficiency - %
Efficiency - %
90
50
40
1
1.5
17.0V
70
20.0V
25.0V
60
28.0V
50
28.0V
40
0.5
15.0V
25.0V
20.0V
50
0
Vin
80
40
0
2
0.5
1
1.5
2
0
0.5
Iout-(Amps)
Iout-(Amps)
Ripple vs Output Current
Ripple vs Output Current
150
1
1.5
2
Iout-(Amps)
Ripple vs Output Current
150
300
Vin
120
Vin
15.0V
12.0V
60
10.0V
25.0V
Ripple-(mV)
Ripple-(mV)
90
7.0V
30
250
28.0V
20.0V
90
20.0V
15.0V
60
10.0V
Ripple-(mV)
120
1
1.5
2
20.0V
17.0V
100
15.0V
0
0.5
25.0V
150
50
7.0V
0
28.0V
8.0V
30
0
Vin
200
0
0
0.5
1
Iout-(Amps)
1.5
2
0
0.5
Iout-(Amps)
Minimum Input Voltage
Minimum Input Voltage
(See Note 2)
6.5
1
1.5
2
Iout-(Amps)
Minimum Input Voltage
(See Note 2)
7
14
6.5
13.5
(See Note 2)
6.25
5.75
5.5
Vin-(Volts)
Vin-(Volts)
Vin-(Volts)
6
6
13
12.5
5.5
5.25
5
12
5
0
0.5
1
1.5
2
0
0.5
1
Iout-(Amps)
1.5
0
2
0.5
1
Thermal Derating (Ta)
Thermal Derating (Ta)
(See Note 3)
2
Thermal Derating (Ta)
(See Note 3)
2
85°C
1.5
2
Iout-(Amps)
Iout-(Amps)
(See Note 3)
2
60˚C
50°C
60°C
90°C
70˚C
85˚C
70°C
1.5
1.5
1.5
1
0.5
Iout-(Amps)
Iout-(Amps)
Iout-(Amps)
95°C
1
0.5
0
9
11
13
15
Vin-(Volts)
17
21
19
0
7
Power Dissipation vs Output Current
9
11
13
15
17 19
Vin-(Volts)
21
23
25
27
29
15
Power Dissipation vs Output Current
2.5
85°C
0.5
0
7
1
17
19
21
23
Vin-(Volts)
25
27
29
Power Dissipation vs Output Current
2.5
3
Vin
Vin
2
15.0V
12.0V
1
10.0V
7.0V
0.5
25.0V
Pd-(Watts)
Pd-(Watts)
20.0V
1.5
20.0V
15.0V
1
10.0V
Vin
28.0V
2
Pd-(Watts)
2
1.5
2.5
28.0V
25.0V
1.5
20.0V
1
17.0V
15.0V
8.0V
0.5
0.5
7.0V
0
0
0
0
0.5
1
Iout-(Amps)
1.5
2
0
0.5
1
Iout-(Amps)
1.5
2
0
0.5
1
1.5
2
Iout-(Amps)
Note 1: All data listed in the above graphs, except for derating data, has been developed from actual products tested at 25˚ C. This data is considered typical data for the ISR.
Note 2: Minimum Vin data is typical and is not guaranteed. The data corresponds to a 2% output voltage drop.
Note 3: Thermal derating graphs are developed in free air convection cooling of 40-60 LFM with no optional heat tab. (See Thermal Application Notes).
Power Trends, Inc. 27715 Diehl Road, Warrenville, IL 60555 (800) 531-5782 Fax: (630) 393-6902
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