PPM60-G

PPM50-G-xxELF
PPM60-G-xxELF
Mainzer Straße 151–153
D-55299 Nackenheim
Tel. +49 6135 7026-0
Fax: +49 6135 931070
www.peak-electronics.de
[email protected]
PPM-SERIES
Rev.03-2013
50-60 Watt
Univ. 90-264VAC (122-370VDC)
Single Output
Over Voltage Protection (out)
4 kV AC I/O Isolation
Low Ripple and Noise
High Efficiency
The PPM-Series are high efficiency green power moduls with various
packaging provided by Peak. The features of this series are: wide input
voltage, DC and AC all in one, high efficiency, high reliability, low loss,
safety isolation etc. They are widely used in industrial, office and civil
equipments.
All specifications typical at Ta=25°C, nominal input voltage and full load unless otherwise specified
Input Specifications
Input Voltage Range
Input Under Voltage Protection
90 – 264 VAC or 122 – 370 VDC universal
Start-up Voltage: 65-90 Vac (92-122VDC)
Shutdown Voltage: 55- 75 Vac (79-105 VDC)
47 – 63 Hz
115 VAC at 1.4A, typ
230 VAC at 0.7A, typ
115 VAC at 30A, typ
230 VAC at 50A, typ
Input Frequency
Input Current
Inrush Current
Output Specifications
Voltage Accuracy
Line Regulation (full load)
Load Regulation (5-100%)
Ripple and Noise (20Mhz bandwidth)
Short Circuit Protection
Over Current Protection
Over Voltage Protection
Min Load
Trim
Common Specifications
Temperature range
Power derating
±2%
±0.5%, typ
±1%, typ
150mV pk-pk, max
Continuous, auto resume
110-150% , auto resume
Zener Diode Clamp
1%
10%
Storage
Hold up Time
Humidity
Temperature Coefficient
Switching Frequency
I/O Isolation Voltage
Safety Standards
Safety Approvals
Safety Class
Hot swap
Case Material
Install
Cooling
Reliability Calculated MTBF (MIL-HDBK-217F)
Weight
-40°C to +70 °C
3% / °C (output: 05, 09 VDC)
2.5% / °C (output: 12,15,24,48 VDC)
-40°C to +85 °C
15mS, typ. at 115VAC
80mS, typ at 230VAC
95%, max.
± 0.02%/°C
100kHz, typ
4000VAC / 1min.
IEC60950, EN60950, UL60950
pending
CLASS I
Forbid
UL94V-0 rated
PCB
Free air convection
> 200,000 hrs
~ 310g
PPM-Series – PPM50/60-G-xxELF – Single Output - Plastic Case
Specification can change without a notice – We accept no liability for any inaccuracy or printing errors.
Page 1/4
Selection Guide
Single Output
mA)
ad (
o
)
L
c
l
l
d
t Fu
e (V
%)
rren
lta g
)
u
o
W
V
cy (
C
(
n
t
t
r
u
e
u
i
e
p
p
Pow
O ut
O ut
Effic
Order #
ax
uF)
e r, m
ad (
w
o
o
L
P
or
dby
acit
Cap
S ta n
SINGLE OUTPUT
PPM50-G-05ELF
PPM50-G-09ELF
PPM50-G-12ELF
PPM60-G-15ELF
PPM60-G-24ELF
PPM60-G-48ELF
50
50
50
60
60
60
5
9
12
15
24
48
10000
6600
5000
4000
2500
1250
82
84
86
86
86
86
80000
28000
14000
12000
4000
1000
0.5W
0.5W
0.5W
0.5W
0.5W
0.5W
If you need other specifications, please enquire.
6.00
[0.236]
:
30.00
[1.181]
Package / Pinning / Derating
(Front View)
Note:
Unit: mm (inch)
Pin 1,2 4, 5’s diameter: 1.80mm, Pin 3, 6’s diameter: 1.20mm
109.00
:4.291]
[
8.90
[0.350]
:
97.30
[3.831]
2-∅1.20[0.047]
(Bottom View)
5
4
5.08
[0.200]
2
6
46.30
[1.823]
58.50
:2.303]
[
19.05
[0.750]
:
4-M3[0.118]
3
4-∅1.80[0.071]
#
1
2
3
4
5
6
96.32
[3.792]
:
PIN CONNECTIONS
SINGLE
AC (N)
AC (L)
FG
+ Vo
-Vo
Trim
30.70
[1.209]
15.60
[0.614]
10.16
[0.400]
:
1
Temperature Derating Graph
Ambient Temperature ° C
24V, 48V
Output
Output
12V, 15V
Output
100%
5V, 9V
Output
62,5
60
50
25
-40 -30
0
45 50 55 70 100
PPM-Series – PPM50/60-G-xxELF – Single Output - Plastic Case
Specification can change without a notice – We accept no liability for any inaccuracy or printing errors.
Page 2/4
App Notes:
Trim Application & Trim Calculation
Application circuit for TRIM
(Part in broken line is the interior of models)
Formula for resistance of Trim
+Vot
+Vot
R1
V ref
Trim
V ref
R2
RT
R1
R3
R3
Trim
RT
up: R T =
aR 2
R 2 -a
-R 3
a=
Vref
R1
Vot-Vref
down: R T =
aR 1
R 1 -a
-R 3
a=
Vot-Vref
R2
Vref
Note: Value for R1, R2, R3, and Vref refer to the following table.
RT: Resistance of Trim
a: User-defined parameter, no actual meanings.
Vo(V)
Resistance
R2
5
9
12
15
24
48
R1(KΩ)
3.3
4.7
3.83
7.5
8.66
33
0V
0V
R2(KΩ)
3.3
1.8
1
1.5
1
1.8
Trim up
Trim down
R3(KΩ)
1
1
1
1
1
1
Vref(V)
2.5
2.5
2.5
2.5
2.5
2.5
Vot(V)
Output voltage of Trim, variation ≤ ±10%
EMC
EMI
EMS
ESD
RS
EFT
Surge
CS
PFM
Voltage dips, short and interruption immunity
EN55022, level B
IEC/EN 61000-4-2 ±6kV/8kV
IEC/EN 61000-4-3 10V/m
IEC/EN 61000-4-4 ±4kV
IEC/EN 61000-4-5 ±2kV/4kV
IEC/EN 61000-4-6 10 Vr.m.s.
IEC/EN 61000-4-8 10A/m
IEC/EN 61000-4-11 95% 5000ms
perf. Criteria B
perf. Criteria A
perf. Criteria B
perf. Criteria B
perf. Criteria A
perf. Criteria A
perf. Criteria B
Parallel Lines Measure
C o p p e r sh e e t
FU SE
L
L
+Vo
C1
AC-DC
N
N
C2
Load
C o n n e ct
Oscillo g ra p h Pro b e
-Vo
1 2 . 7 mm
2 5 . 4 mm
2 5 . 4 mm
Note: C1: 1µF (Ceramic capacitor) C2: 10µF (Electrolytic capacitor)
PPM-Series – PPM50/60-G-xxELF – Single Output - Plastic Case
Specification can change without a notice – We accept no liability for any inaccuracy or printing errors.
Page 3/4
App Notes:
Typical Applications PPM-Series
Fig 2
Fig 1
F US E
L
L
N
N
C1
+Vo
C2 TVS
RL
L
L
N
N
+Vo
AC-DC
-Vo
FG
FG
+Vo
-Vo
-Vo
Note: This application is not supported for this series.
C y1
M O V4
L
L
C Y1
MO V2
CX
M O V1
R1
LCM
ACDC
O U TPU T
C Y2
N
N
MO V5
PE
External Typical Value
Model
PPM50-G-05ELF
PPM50-G-09ELF
PPM50-G-12ELF
PPM60-G-15ELF
PPM60-G-24ELF
PPM60-G-48ELF
C1
C2
680µF
470 µF
330 µF
330 µF
200µF
100µF
1µF
TVS
SMBJ7.0A
SMBJ12A
SMBJ20A
SMBJ30A
SMBJ30A
SMBJ64A
Note
1. Output filtering capacitors C2 is electrolytic capacitors. It is recommended to use high frequency and low impedance
electrolytic capacitors. For capacitance and current of capacitor, please refer to manufacture’s datasheet. Voltage
derating of capacitor should be 80% or above. C1 is ceramic capacitor - it is used to filter high frequency noise. TVS
is a recommended component to protect post-circuits (if converter fails).
2. External connect FUSE, recommended the parameter is 3.15A/250V slow blow.
Figure 3
MOV1 561KD14
MOV2 MOV3 561KD14
CX 0.15µF/300VAC
CY1 CY2 2200pF/400VAC
NTC 5D-9
FUSE Recommended to use3.15A/250V slow blow.
MOV4 MOV5 561KD07
R1 1MΩ/2W
PPM-Series – PPM50/60-G-xxELF – Single Output - Plastic Case
Specification can change without a notice – We accept no liability for any inaccuracy or printing errors.
Page 4/4