ETC BP5068-24

BP5068-15 / BP5068-24
Power Module
AC/DC converter
BP5068-15 / BP5068-24
The BP5068-15 and BP5068-24 are AC/DC converters which can be used to supply DC output from a commercial
power supply(100V AC). Using these modules enable simple, easy drive of microcomputers, DC motors, heaters, LEDs,
and many other electronic components without using a transformer. They also allow set PCBs to be kept compact and
lightweight, with extremely few attachments.
!Applications
Power supply circuits for vacuum cleaners, washing machines, refrigerators, electric carpets, electric rice cookers and
crock pots, irons, cordless telephones, air purifiers, humidifiers, dehumidifiers, illumination devices and other small
household appliances, as well as power supply circuits for gas, fire and smoke alarms, DC motors, sensors, and other
similar devices.
!Features
1) Elimination of a transformer enables compact, lightweight power supply boards.
2) Wide input voltage range.
3) DC power supplies can be easily configured, with few attachments.
4) Because no transformer is used, the power supply board is less vulnerable to splitting or cracking from impact or
shock.
5) Allow easy assemblage of components.
!List of the BP5068 series
BP5068-15
BP5068-24
Unit
V
−120 ∼ −162
−120 ∼ −162
Output voltage
−15
−24
V
Output current
800
600
mA
Power supply voltage
!Absolute maximum ratings (Ta=25°C)
Parameter
Symbol
Limits
VIN
−190
V
Operating temperature range
Topr
−20 ∼ +80
°C
Storage temperature range
Tstg
−25 ∼ +105
°C
Power supply voltage
Unit
!Recommended Operating Conditions (Ta=25°C)
Parameter
Symbol
Min.
Typ.
Max.
Unit
Power supply voltage
VIN
−120
−141
−162
V (DC)
BP5068-15 / BP5068-24
Power Module
!Pin descriptions
Pin No.
Pin name
1
VOUT
3
COIL
5
COIL
7
COMMON
8
COMMON
10
NC
12
VIN
Pins 2, 4, 6, 9, 11 are removed.
!Electrical characteristics (Unless other wise noted, Ta=25°C)
BP5068-15
Parameter
Symbol
Min.
Typ.
Max.
Unit
Input voltage
VIN
−120
−141
−162
V
Conditions
Output voltage
VO
−14
−15
−16
V
VIN=−141V, IO=0.8A
Output current
IO
0
−
0.8
A
VIN=−141V
Line regulation
Vr
−
0.20
0.45
V
VIN=−120∼−162V, IO=0.8A
Load regulation
VI
−
0.50
0.75
V
VIN=−141V, IO=0∼0.8A
Output ripple voltage
Vp
−
0.15
0.30
VPP
VIN=−141V, IO=0.8A
Conversion efficiency
η
80
85
−
%
VIN=−141V, IO=0.8A
DC
∗1
∗2
∗1 Maximum output current varies depending on ambient temperature : please refer to derating curve.
∗2 Spike noise is not included in output ripple voltage.
BP5068-24
Parameter
Symbol
Min.
Typ.
Max.
Unit
Input voltage
VIN
−120
−141
−162
V
Output voltage
VO
−22
−24
−26
V
VIN=−141V, IO=600mA
Output current
IO
0
−
0.6
A
VIN=−141V
Line regulation
Vr
−
0.23
0.48
V
VIN=−120∼−162V, IO=600mA
Load regulation
VI
−
0.55
0.75
V
VIN=−141V, IO=0∼600mA
Output ripple voltage
Vp
−
0.11
0.20
VPP
VIN=−141V, IO=0.6A
Conversion efficiency
η
82
88
−
%
VIN=−141V, IO=0.6A
Vop
−
−6
−22
V
VIN=−141V, IO=0.88A
Over-current protection
∗1 Maximum output current varies depending on ambient temperature : please refer to derating curve.
∗2 Spike noise is not included in output ripple voltage.
Conditions
∗1
∗2
BP5068-15 / BP5068-24
Power Module
!Measurement circuits
BP5068-15
BP5068-15
12
10
7
5
3
1
A
470µH
C13-FR-471(MITSUMI)
100µF
/ 200V
VIN
+
V
470µF / 50V
+
31DF4
(Nihon Inter Electronics)
or RU30(Sanken Electric)
Use a low-impedance product for the output capacitor.
Fig.1
BP5068-24
BP5068-24
12
8
7
5
3
2
1
1mH
C13-FR-102(MITSUMI)
VIN
100µF
+
+
31DF4
(Nihon Inter Electronics)
or RU30(Sanken Electric)
470µF / 50V
Use a low-impedance product for the output capacitor.
Fig.2
!Application example
Half wave rectifier circuit
Half wave rectifier circuit
BP5068-15
12
10
8
7
BP5068-24
5
3
1
12
Rx
4.7Ω(1W)
10
8
7
5
3
1
Rx
4.7Ω(1W)
470µH
100µF
/ 200V
+
C13-FR(MITSUMI)
Cx
0.22µF
/ 200V
+
Fig.3
470µF
/ 50V
Output
100µF
/ 200V
+
Cx
0.22µF
/ 200V
+
1mH
C13-FR(MITSUMI)
Fig.4
470µF
/ 50V
Output
BP5068-15 / BP5068-24
Power Module
!Operation notes
(1) The output current needs to be reduced as the ambient temperature rises.
(2) Over current and shorted circuit
The over current limit is a drooping model. If there is any danger of the load being shorted or over current being
produced, always use a protective device such as a fuse.
(3) Insulation
These products are not insulated on the primary side, and there is a danger of electrical shock if they are touched.
(4) Avoid subjecting these products to strong impact.
(5) Lead pins should be securely connected. If lead pins are not securely connected, irregular voltages could be
produced, causing breakdowns and damage.
!Electrical characteristic curves
16
0.8
15.8
0.7
0.6
0.5
0.4
0.3
0.2
15.6
15.4
15.2
15
14.8
14.6
14.4
14.2
0.1
0
−20
14
0
20
40
60
80
60
40
20
0
0
0.2
0.4
0.6
0.8
0
0.2
0.4
0.6
OUTPUT CURRENT : IO (A)
OUTPUT CURRENT : IO (A)
Fig.5 Derating curve
Fig.6 Output characteristic
Fig.7 Conversion efficiency
35
30
25
20
15
10
5
0
0
80
AMBIENT TEMPERATURE : Ta (°C)
40
TEMPERATURE RISING : T (K)
100
CONVERSION EFFICIENCY : η (%)
0.9
OUTPUT VOLTAGE : VO (V)
OUTPUT CURRENT : IO (A)
BP5068-15
0.2
0.4
0.6
OUTPUT CURRENT : IO (A)
Fig.8 Surface temperature rise
0.8
0.8
BP5068-15 / BP5068-24
Power Module
BP5068-24
OUTPUT VOLTAGE : VO (V)
OUTPUT CURRENT : IO (A)
0.6
0.5
0.4
0.3
0.2
0.1
25
100
24.8
90
CONVERSION EFFICIENCY : η (%)
0.7
24.6
24.4
24.2
24
23.8
23.6
23.4
23.2
23
0
−20
20
0
40
60
80
0.1
TEMPERATURE RISING : T (K)
30
20
10
0.2
0.3
0.4
0.5
0.6
0
0.1
0.2
0.3
0.4
0.5
Fig.9 Derating curve
Fig.10 Output characteristic
Fig.11 Conversion efficiency
10
5
0
0.1
0.2
0.3
0.4
0.5
0.6
OUTPUT CURRENT : IO (A)
Fig.12 Surface temperature rise
!External dimensions (Units: mm)
11.5 Max.
Marked side
35.0 Max.
22.0 Max.
40
OUTPUT CURRENT : IO (A)
15
4± 1
50
OUTPUT CURRENT : IO (A)
20
Marked side
1
3
5
7 8
10
12
0.25±0.05
5.08
3.3 Max.
60
AMBIENT TEMPERATURE : Ta (°C)
25
0
70
0
0
100
80
0.5±0.1
1.3±0.2
4.1 Max.
27.94Typ.
SIP12
7.4 Max.
0.6