TI PT3104C

For assistance or to order, call
Application Notes
Mechanical Outline
Product Selector Guide
(800) 531-5782
24V
PT3100 Series
15 WATT 24V TO 5V/12V/15V
ISOLATED DC-DC CONVERTER
• Power Density 15 Watts/in3
• Wide Input Voltage Range
18V to 40V
• 81% Efficiency
• 500 VDC Isolation
• Small Footprint
• No External Components Required
Power Trends’ PT3104A (5V),
PT3105A (12V) and PT3106A (15V)
Revised 5/15/98
Isolated DC-DC Converters advance the
state-of-the-art for board-mounted converters by employing high switching frequencies
greater than 650 KHz and planar magnetics
and surface-mount construction. They feature the industry’s smallest footprint, a power
density of 15 Watts/in3, and operate
at 80% efficiency. They are designed for
Telecom, Industrial, Computer, Medical,
and other distributed power applications
requiring input-to-output isolation.
Standard Application
On/Off
1
+Vin
3
-Vin
2
PT3100
5
+Vout
4
-Vout
Specifications
Pin-Out Information
Characteristics
(Ta=25°C unless noted)
Symbols
Conditions
Output Current
Io
Over Vin range,
Current Limit
On/Off Standby Current
Pin
Function
Min
Typ
Max
Units
1
Vo = 5V
Vo = 12V
Vo = 15V
0
0
0
—
—
—
3.0
1.25
1.0
A
A
A
Remote
ON/OFF
2
-Vin
Vo = 5V
Vo = 12V
Vo = 15V
—
—
—
4.0
1.75
1.4
—
—
—
A
A
A
3
+Vin
4
-Vout
7
10
mA
5
+Vout
6
Do not connect
PT3100 SERIES
Icl
Vin = 18V,
Iin standby
Vin = 24V, Pin 1 = -Vin
—
Short Circuit Current
Isc
Vin = 24V,
—
—
—
6.25
2.5
2.0
—
—
—
A
A
A
Inrush Current
Iir
tir
Vin = 24V @ max Io
On start-up
—
—
1.0
1.0
2.0
5.0
A
mSec
Input Voltage Range
Vin
Io = 0.1 to max Io
18.0
24.0
40.0
V
Output Voltage Tolerance
∆Vo
Over Vin Range
TA= -20°C to +70°C
—
±1.0
±2.0
%Vo
Ripple Rejection
RR
Over Vin range @ 120 Hz
—
60
—
dB
Line Regulation
Regline
Over Vin range @ max Io
—
±0.2
±1.0
%Vo
Load Regulation
Regload
10% to 100% of Io max
—
±0.4
±1.0
%Vo
Vo Ripple/Noise
Vn
Vin=24V, Io=3.0A, Vo=5V
Vin=24V, Io=1.25A, Vo=12V
Vin=24V, Io=1.25A, Vo=15V
—
—
—
75
75
100
100
150
200
mVpp
mVpp
mVpp
Transient Response
ttr
50% load change
Vo over/undershoot
—
—
125
3.0
200
5.0
µSec
%Vo
Efficiency
η
Vin=24V, Io=3.0A, Vo=5V
Vin=24V, Io=1.25A, Vo=12V
Vin=24V, Io=1A, Vo=15V
—
—
—
80
80
81
—
—
—
%
%
%
Switching Frequency
ƒo
Over Vin and Io,
Vo=5V
Vo=12V/15V
800
600
850
650
900
700
kHz
kHz
Recommended Operating
Temperature Range
Ta
Vin = 24V @ max Io
Free air convection, (40-60LFM)
-20
—
+70*
°C
Thermal Resistance
θja
Free Air Convection, (40-60LFM)
—
14
—
°C/W
Case Temperature
Tc
@ Thermal shutdown
—
—
100
°C
Storage Temperature
Ts
-40
—
110
°C
Mechanical Shock
—
Per Mil-STD-202F, Method 213B,
6mS, Half-sine, mounted to a PCB
—
50
—
G’s
Mechanical Vibration
—
Per Mil-STD-202F, Method 204D,
10-500Hz, Soldered in a PCB
—
10
—
G’s
Vo = 5V
Vo = 12V
Vo = 15V
Weight
—
—
—
28
—
grams
Isolation
Capacitance
Resistance
—
—
—
—
—
—
500
—
10
—
1100
—
—
—
—
V
pF
MΩ
Flammability
—
Materials meet UL 94V-0
Remote On/Off
On
Off
Open or 2.5 to 7.0 VDC above -Vin
Short or 0 to 0.8 VDC above -Vin
Ordering Information
Through-Hole
PT3104A = 5 Volts
PT3105A = 12 Volts
PT3106A = 15 Volts
Surface Mount
PT3104C = 5 Volts
PT3105C = 12 Volts
PT3106C = 15 Volts
(For dimensions and PC
board layout, see Package
Style 700.)
* See Thermal Derating Curves
62
Power Trends, Inc. 27715 Diehl Road, Warrenville, IL 60555 (800) 531-5782 Fax: (630) 393-6902 http://www.powertrends.com
For assistance or to order, call
(800) 531-5782
24V
PT3100 Series
CHARACTERISTIC
DATA
PT3106, 15.0 VDC
(See Note 1)
(See Note 1)
Efficiency vs Output Current
Efficiency vs Output Current
100
100
90
90
Efficiency vs Output Current
100
24V
70
32V
60
40V
80
18V
70
24V
32V
60
40V
50
50
0
0.5
1
1.5
2
2.5
0.5
0.75
Iout-(Amps)
24V
50
18V
Ripple-(mV)
30
40V
70
32V
24V
50
18V
3
40V
70
18V
10
0.25
0.5
0.75
1
0.25
1.25
1
85˚C
0.75
0.5
0
85°C
0.6
0.4
0
0
24
26
28
30
32
34
36
38
40
18
20
22
Vin-(Volts)
24
26
28
30
32
34
36
38
18
40
4
3
32V
24V
2
PD-(Watts)
40V
40V
32V
2
24V
Iout-(Amps)
2.5
3
32
34
36
0.25
38
40
Vin
40V
3
32V
24V
2
18V
1
0
2
30
18V
1
0
28
4
Vin
3
18V
1
26
5
4
Vin
1.5
24
Power Dissipation vs Output Current
5
1
22
Vin-(Volts)
Power Dissipation vs Output Current
5
0.5
20
Vin-(Volts)
Power Dissipation vs Output Current
0
70°C
0.2
0.25
0.5
(See Note 2)
0.8
Iout-(Amps)
Iout-(Amps)
1.5
1
1
70˚C
1
85°C
2
0.75
Thermal Derating (Ta)
(See Note 2)
1.25
70°C
22
0.5
Iout-(Amps)
Thermal Derating (Ta)
(See Note 2)
3
20
24V
Iout-(Amps)
Thermal Derating (Ta)
18
32V
50
30
Iout-(Amps)
2.5
Vin
90
Vin
10
2.5
1
110
30
10
0.75
Ripple vs Output Current
PD-(Watts)
Ripple-(mV)
32V
2
0.5
Iout-(Amps)
90
40V
1.5
40V
0.25
Ripple-(mV)
Vin
70
1
32V
60
1.25
110
90
Iout-(Amps)
1
Ripple vs Output Current
110
0.5
24V
Iout-(Amps)
Ripple vs Output Current
0
18V
70
40
0.25
3
Vin
80
50
40
40
PD-(Watts)
Efficiency - %
18V
Efficiency - %
Efficiency - %
Vin
80
90
Vin
0
0.5
0.75
1
1.25
0.25
Iout-(Amps)
0.5
0.75
1
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 DC-DC Converters.
Note 2: Thermal derating graphs are developed in free air convection cooling of 40-60 LFM.
Power Trends, Inc. 27715 Diehl Road, Warrenville, IL 60555 (800) 531-5782 Fax: (630) 393-6902 http://
www.powertrends.com
63
DATA SHEETS
PT3105, 12.0 VDC
(See Note 1)
24V Bus Products
PT3104, 5.0 VDC
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