PKM4110CPINB [ERICSSON]
DC-DC Regulated Power Supply Module, 1 Output, 165W, Hybrid, ROHS COMPLIANT, QUARTER BRICK PACKAGE-10;型号: | PKM4110CPINB |
厂家: | ERICSSON |
描述: | DC-DC Regulated Power Supply Module, 1 Output, 165W, Hybrid, ROHS COMPLIANT, QUARTER BRICK PACKAGE-10 |
文件: | 总26页 (文件大小:1073K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
E
Technical Specification
EN/LZT 146 307R4AAugust 2008
PKM 4000C PINB Series
© Ericsson Power Modules AB
DC/DC converters, Input 36-75 V, Output 55 A/204 W
Key Features
•
Industry standard quarter-brick and optional double
Pin-Out. 57.9 x 36.8 x 9.1 mm (2.28 x 1.45 x 0.35 in.)
High efficiency, typ. 94 % at 12 Vout half load
2250 Vdc input to output isolation
Meets isolation requirements equivalent to basic
insulation according to IEC/EN/UL 60950
More than 2.7 million hours MTBF
•
•
•
•
General Characteristics
•
•
•
•
•
•
•
Over temperature protection
Over current limit protection
Over voltage protection
Remote control
Output voltage adjust function
Highly automated manufacturing ensures quality
ISO 9001/14001 certified supplier
Safety Approvals
Design for Environment
Meets requirements in high-
temperature lead-free soldering
processes.
Contents
General Information
Safety Specification
Absolute Maximum Ratings
............................................................. 2
............................................................. 3
............................................................. 4
Product Program
Ordering No.
2.5V, 55A / 137.5W Electrical Specification PKM4119C PINB.................................. 5
3.3V, 50A / 165W Electrical Specification
5.0V, 40A / 200W Electrical Specification
12.0V, 17A / 204W Electrical Specification
PKM4110C PINB.................................. 8
PKM4211C PINB................................ 11
PKM4213C PINBSP ........................... 14
EMC Specification
........................................................... 17
........................................................... 18
........................................................... 20
........................................................... 20
........................................................... 21
........................................................... 25
........................................................... 25
........................................................... 26
Operating Information
Thermal Consideration
Connections
Mechanical Information
Soldering Information
Delivery Information
Product Qualification Specification
E
2
Technical Specification
EN/LZT 146 307R4AAugust 2008
PKM 4000C PINB Series
© Ericsson Power Modules AB
DC/DC converters, Input 36-75 V, Output 55 A/204 W
-
-
Lead in glass of electronics components and in
electronic ceramic parts (e.g. fill material in chip
resistors)
Lead as an alloying element in copper alloy containing
up to 4% lead by weight (used in connection pins
made of Brass)
General Information
Ordering Information
See Contents for individual product ordering numbers.
Option
Suffix
Ordering No.
Baseplate
Single Pin*
Positive Remote Control Logic
Increased stand-off height
Lead length 3.69 mm (0.145 in)
Lead length 4.57 mm (0.180 in)
PKM 4110C PI
Quality Statement
SP
P
M
LA
LB
PKM 4211C PINBSP
PKM 4110C PIPNB
PKM 4110C PINBM
PKM 4110C PINBLA
PKM 4110C PINBLB
The products are designed and manufactured in an
industrial environment where quality systems and methods
like ISO 9000, 6σ (sigma), and SPC are intensively in use to
boost the continuous improvements strategy. Infant
mortality or early failures in the products are screened out
and they are subjected to an ATE-based final test.
Note: As an example a positive logic, increased standoff, short pin product
would be PKM 4110C PIPNBMLA.
*Single Pin option only for current less than 50A.
Conservative design rules, design reviews and product
qualifications, plus the high competence of an engaged
work force, contribute to the high quality of our products.
Reliability
The Mean Time Between Failure (MTBF) is calculated at full
output power and an operating ambient temperature (TA) of
+40°C, which is a typical condition in Information and
Communication Technology (ICT) equipment. Different
methods could be used to calculate the predicted MTBF
and failure rate which may give different results. Ericsson
Power Modules currently uses two different methods,
Ericsson failure rate data system DependTool and
Telcordia SR332.
Warranty
Warranty period and conditions are defined in Ericsson
Power Modules General Terms and Conditions of Sale.
Limitation of Liability
Ericsson power Modules does not make any other
warranties, expressed or implied including any warranty of
merchantability or fitness for a particular purpose
(including, but not limited to, use in life support
applications, where malfunctions of product can cause
injury to a person’s health or life).
Predicted MTBF for the series is:
-
-
2.7 million hours according to DependTool.
1.4 million hours according to Telcordia SR332, issue
1, Black box technique.
The Ericsson failure rate data system is based on field
tracking data. The data corresponds to actual failure rates
of components used in ICT equipment in temperature
controlled environments (TA = -5...+65°C).
Telcordia SR332 is a commonly used standard method
intended for reliability calculations in ICT equipment. The
parts count procedure used in this method was originally
modelled on the methods from MIL-HDBK-217F, Reliability
Predictions of Electronic Equipment. It assumes that no
reliability data is available on the actual units and devices
for which the predictions are to be made, i.e. all predictions
are based on generic reliability parameters.
Compatibility with RoHS requirements
The products are compatible with the relevant clauses and
requirements of the RoHS directive 2002/95/EC and have a
maximum concentration value of 0.1% by weight in
homogeneous materials for lead, mercury, hexavalent
chromium, PBB and PBDE and of 0.01% by weight in
homogeneous materials for cadmium.
Exemptions in the RoHS directive utilized in Ericsson
Power Modules products include:
-
Lead in high melting temperature type solder (used to
solder the die in semiconductor packages)
E
3
Technical Specification
EN/LZT 146 307R4AAugust 2008
PKM 4000C PINB Series
© Ericsson Power Modules AB
DC/DC converters, Input 36-75 V, Output 55 A/204 W
Safety Specification
Isolated DC/DC converters
It is recommended that a slow blow fuse with a rating
twice the maximum input current per selected product be
used at the input of each DC/DC converter. If an input filter
is used in the circuit the fuse should be placed in front of
the input filter.
General information
Ericsson Power Modules DC/DC converters and DC/DC
regulators are designed in accordance with safety
standards IEC/EN/UL60950, Safety of Information
Technology Equipment.
In the rare event of a component problem in the input filter
or in the DC/DC converter that imposes a short circuit on
the input source, this fuse will provide the following
functions:
IEC/EN/UL60950 contains requirements to prevent injury
or damage due to the following hazards:
•
•
•
•
•
•
Electrical shock
Energy hazards
Fire
Mechanical and heat hazards
Radiation hazards
Chemical hazards
•
•
Isolate the faulty DC/DC converter from the input
power source so as not to affect the operation of
other parts of the system.
Protect the distribution wiring from excessive
current and power loss thus preventing
hazardous overheating.
On-board DC-DC converters are defined as component
power supplies. As components they cannot fully comply
with the provisions of any Safety requirements without
“Conditions of Acceptability”. It is the responsibility of the
installer to ensure that the final product housing these
components complies with the requirements of all
applicable Safety standards and Directives for the final
product.
The galvanic isolation is verified in an electric strength test.
The test voltage (Viso) between input and output is
1500 Vdc or 2250 Vdc for 60 seconds (refer to product
specification).
Leakage current is less than 1 µA at nominal input voltage.
24 V DC systems
The input voltage to the DC/DC converter is SELV (Safety
Extra Low Voltage) and the output remains SELV under
normal and abnormal operating conditions.
Component power supplies for general use should comply
with the requirements in IEC60950, EN60950 and
UL60950 “Safety of information technology equipment”.
48 and 60 V DC systems
There are other more product related standards, e.g.
IEEE802.3af “Ethernet LAN/MAN Data terminal equipment
power”, and ETS300132-2 “Power supply interface at the
input to telecommunications equipment; part 2: DC”, but
all of these standards are based on IEC/EN/UL60950 with
regards to safety.
If the input voltage to Ericsson Power Modules DC/DC
converter is 75 Vdc or less, then the output remains SELV
(Safety Extra Low Voltage) under normal and abnormal
operating conditions.
Single fault testing in the input power supply circuit should
be performed with the DC/DC converter connected to
demonstrate that the input voltage does not exceed
75 Vdc.
Ericsson Power Modules DC/DC converters and DC/DC
regulators are UL60950 recognized and certified in
accordance with EN60950.
If the input power source circuit is a DC power system, the
source may be treated as a TNV2 circuit and testing has
demonstrated compliance with SELV limits and isolation
requirements equivalent to Basic Insulation in accordance
with IEC/EN/UL60950.
The flammability rating for all construction parts of the
products meets requirements for V-0 class material
according to IEC 60695-11-10.
The products should be installed in the end-use
equipment, in accordance with the requirements of the
ultimate application. Normally the output of the DC/DC
converter is considered as SELV (Safety Extra Low
Voltage) and the input source must be isolated by
minimum Double or Reinforced Insulation from the primary
circuit (AC mains) in accordance with IEC/EN/UL60950.
Non-isolated DC/DC regulators
The input voltage to the DC/DC regulator is SELV (Safety
Extra Low Voltage) and the output remains SELV under
normal and abnormal operating conditions.
E
4
Technical Specification
EN/LZT 146 307 R4A August 2008
PKM 4000C PINB Series
DC/DC converters, Input 36-75 V, Output 55 A/204 W
© Ericsson Power Modules AB
Absolute Maximum Ratings
Characteristics
min
-40
typ
max
+110
+125
+80
Unit
°C
°C
V
Tref
TS
Operating Temperature (see Thermal Consideration section)
Storage temperature
-55
VI
Input voltage
-0.5
Viso
Viso
Vtr
Isolation voltage baseplate (input to output, input & output to baseplate test voltage)
Isolation voltage no baseplate option (input to output)
Input voltage transient (Tp 100 ms)
2250
1500
100
Vdc
Vdc
V
Positive logic option
Negative logic
-0.5
-0.5
-0.5
+15
V
Remote Control pin voltage
(see Operating Information section)
VRC
Vadj
+15
V
Adjust pin voltage (see Operating Information section)
+2
V
Stress in excess of Absolute Maximum Ratings may cause permanent damage. Absolute Maximum Ratings, sometimes referred to as no destruction limits, are
normally tested with one parameter at a time exceeding the limits of Output data or Electrical Characteristics. If exposed to stress above these limits, function and
performance may degrade in an unspecified manner.
Fundamental Circuit Diagram
Isolated
Feedback
+ Out
Primary
Secondary
+ In
+ Out
+ Sense
Vadj
Voltage
Monitoring
RC
- In
Control
Control
- Sense
- Out
- Out
E
5
Technical Specification
EN/LZT 146 307 R4A August 2008
PKM 4000C PINB Series
DC/DC converters, Input 36-75 V, Output 55 A/204 W
© Ericsson Power Modules AB
2.5 V Electrical Specification
PKM 4119C PINB
Tref = -40 to +90ºC, VI = 36 to 75 V, unless otherwise specified under Conditions.
Typical values given at: Tref = +25°C, VI= 53 V, max IO , unless otherwise specified under Conditions.
Characteristics
Conditions
min
36
typ
max
75
Unit
V
VI
Input voltage range
VIoff
VIon
CI
Turn-off input voltage
Turn-on input voltage
Internal input capacitance
Output power
Decreasing input voltage
Increasing input voltage
32
34
V
V
5.7
μF
W
PO
Output voltage initial setting
f = 100 Hz sinewave, 1 Vp-p
50 % of max IO
0
137.5
SVR
Supply voltage rejection (ac)
55
dB
91.5
89.2
91.7
88.9
max IO
88
η
Efficiency
%
50 % of max IO , VI = 48 V
max IO , VI = 48 V
Pd
Pli
Power Dissipation
Input idling power
Input standby power
Switching frequency
max IO
18.8
W
W
IO= 0, VI = 53 V
2.6
100
200
PRC
fs
VI = 53 V (turned off with RC)
0 -100% of max IO
mW
kHz
180
220
Output voltage initial setting and
accuracy
2.45
2.50
2.55
V
Tref = +25°C, VI = 53 V, IO = max IO
Vadj, see Note 1
VOi
Output adjust range
Output voltage tolerance band
Idling voltage
2.21
2.40
2.40
2.81
2.60
2.60
15
V
V
10-100% of max IO
IO = 0
V
VO
Line regulation
max IO
mV
mV
Load regulation
VI = 53 V, 1-100% of max IO
15
Load transient
voltage deviation
VI = 53 V, Load step 25-75-25 % of
max IO, di/dt = 1 A/μs,
see Note 2
Vtr
ttr
tr
±250
100
10
mV
us
Load transient recovery time
Ramp-up time
(from 10−90 % of VOi)
5
15
ms
10-100% of max IO
Start-up time
(from VI connection to 90% of VOi)
ts
10
0
15
50
55
ms
IO
Output current
A
A
A
Ilim
Isc
Current limit threshold
Short circuit current
Vo = 2.25 V, Tref < max Tref
Tref = 25ºC,
63
74
See ripple & noise section,
max IO, VO.
VOac
Output ripple & noise
80
130
mVp-p
V
Tref = +25°C, VI = 53 V, IO = 0-100%
OVP
Over Voltage Protection
3.4
of max IO
Note 1: When using Vadj function, max output power (PO) must not be exceeded
Note 2: Output filter according to Ripple & Noise section
E
6
Technical Specification
EN/LZT 146 307 R4A August 2008
PKM 4000C PINB Series
DC/DC converters, Input 36-75 V, Output 55 A/204 W
© Ericsson Power Modules AB
2.5 V Typical Characteristics
PKM 4119C PINB
Efficiency
Power Dissipation
[%]
93
[W]
20
91
89
87
85
83
16
12
8
36 V
48 V
53 V
75 V
36 V
48 V
53 V
75 V
4
0
0
5
10 15 20 25 30 35 40 45 50 55 [A]
0
5
10 15 20 25 30 35 40 45 50 55 [A]
Dissipated power vs. load current and input voltage at
ref = +25°C
Efficiency vs. load current and input voltage at Tref = +25°C
T
Output Current Derating
Thermal Resistance
[°C/W]
6
[A]
60,0
3.0 m/s
50,0
40,0
30,0
20,0
10,0
2.5 m/s
2.0 m/s
1.5 m/s
1.0 m/s
Nat. Conv.
4
2
0
0,0
20 30 40 50 60 70 80 90 100 [°C]
0,0
0,5
1,0
1,5
2,0
2,5
3,0[m/s]
Available load current vs. ambient air temperature and airflow at
VI = 53 V. See Thermal Consideration section.
Thermal resistance vs. airspeed measured at the converter. Tested in
wind tunnel with airflow and test conditions as per
the Thermal consideration section.
[V]
[V]
2,60
2,55
2,50
2,45
2,40
3,0
2,5
2,0
1,5
1,0
0,5
0,0
36 V
48 V
53 V
75 V
36 V
48 V
53 V
75 V
0
5
10 15 20 25 30 35 40 45 50 55 [A]
55,0
60,0
65,0
70,0
75,0
80,0 [A]
Output voltage vs. load current at Tref = +25°C
Output voltage vs. load current at IO > max IO , Tref = +25°C
E
7
Technical Specification
EN/LZT 146 307 R4A August 2008
PKM 4000C PINB Series
DC/DC converters, Input 36-75 V, Output 55 A/204 W
© Ericsson Power Modules AB
2.5 V Typical Characteristics
PKM 4119C PINB
Start-up
Shut-down
Start-up enabled by connecting VI at:
Top trace: output voltage (5 V/div.).
Bottom trace: input voltage (20 V/div.).
Time scale: 5 ms/div..
Shut-down enabled by disconnecting VI at:
ref = +25°C, IO = 10 A load,
VI = 53 V
Top trace: output voltage (1 V/div.).
Bottom trace: input voltage (20 V/div.).
Time scale: 0.1 ms/div..
Tref = +25°C, IO = 55 A resistive load,
T
VI = 53 V.
Output Ripple & Noise
Output Load Transient Response
Output voltage ripple (50mV/div.) at:
Tref = +25°C, IO = 55 A resistive load,
VI = {53 V}. Time scale: 5 μs/div.
See the filter in the Output ripple and noise
section (EMC Specification).
Output voltage response to load current step- Top trace: output voltage (100mV/div.).
change (13.8-41.4-13.8 A) at:
Bottom trace: load current (13.8 A/div.).
Time scale: {0.1 ms/div.}.
Tref =+25°C, VI = 53 V.
Output Voltage Adjust (see operating information)
Passive trim
The resistor value for an adjusted output voltage is calculated by using
the following equations:
The PKM4000C series DC/DC converters can be
offered with a baseplate. Baseplate helps to cool
hotspots more efficient during heavy load. The
baseplate have approximately 5°C improved
derating compared to datasheet showing non
baseplated PKM4000C. The baseplate is intended
to be mounted on a cold wall to transfer heat away
from the converter. By mounting PKM4000C in this
way thermal derating can be improved by more
than 10°C .
Output Voltage Adjust Upwards, Increase:
Radj= 5.11((2.5(100+Δ%))/1.225Δ%-(100+2Δ%)/Δ%) kOhm
Eg Increase 4% =>Vout =2.6 Vdc
5.11(2.5(100+4)/1.225x4-(100+2x4)/4 = 133 kOhm
Output Voltage Adjust Downwards, Decrease:
Radj= 5.11(100/Δ%-2) kOhm
Eg Decrease 2% =>Vout = 2.45 Vdc
5.11(100/2-2)= 245 kOhm
E
8
Technical Specification
EN/LZT 146 307 R4A August 2008
PKM 4000C PINB Series
DC/DC converters, Input 36-75 V, Output 55 A/204 W
© Ericsson Power Modules AB
3.3 V Electrical Specification
PKM 4110C PINB
Tref = -40 to +90ºC, VI = 36 to 75 V, unless otherwise specified under Conditions.
Typical values given at: Tref = +25°C, VI= 53 V, max IO , unless otherwise specified under Conditions.
Characteristics
Conditions
min
36
typ
max
75
Unit
V
VI
Input voltage range
VIoff
VIon
CI
Turn-off input voltage
Turn-on input voltage
Internal input capacitance
Output power
Decreasing input voltage
Increasing input voltage
32
34
V
V
5.7
μF
W
PO
Output voltage initial setting
f = 100 Hz sinewave, 1 Vp-p
50 % of max IO
0
165
SVR
Supply voltage rejection (ac)
50
dB
92.2
90.3
92.3
90.1
max IO
89
η
Efficiency
%
50 % of max IO , VI = 48 V
max IO , VI = 48 V
Pd
Pli
Power Dissipation
Input idling power
Input standby power
Switching frequency
max IO
20.4
W
W
IO= 0, VI = 53 V
3.4
100
155
PRC
fs
VI = 53 V (turned off with RC)
0 -100% of max IO
mW
kHz
145
165
Output voltage initial setting and
accuracy
3.24
3.36
V
Tref = +25°C, VI = 53 V, IO = max IO
Vadj, see Note 1
VOi
Output adjust range
Output voltage tolerance band
Idling voltage
2.97
3.23
3.23
3.63
3.37
3.37
15
V
V
10-100% of max IO
IO = 0
V
VO
Line regulation
max IO
mV
mV
Load regulation
VI = 53 V, 1-100% of max IO
15
Load transient
voltage deviation
VI = 53 V, Load step 25-75-25 % of
max IO, di/dt = 1 A/μs,
see Note 2
Vtr
ttr
tr
±500
100
10
mV
us
Load transient recovery time
Ramp-up time
(from 10−90 % of VOi)
7
30
ms
10-100% of max IO
Start-up time
(from VI connection to 90% of VOi)
ts
10
0
15
50
50
ms
IO
Output current
A
A
A
Ilim
Isc
Current limit threshold
Short circuit current
Vo = 2.97 V, Tref < max Tref
61
65
Tref = 25ºC, VO = < VOnom * 0.1
See ripple & noise section,
max IO, VO.
VOac
Output ripple & noise
60
125
mVp-p
V
Tref = +25°C, VI = 53 V, IO = 0-100%
OVP
Over Voltage Protection
4.2
of max IO
Note 1: When using Vadj function, max output power (PO) must not be exceeded
Note 2: Output filter according to Ripple & Noise section
E
9
Technical Specification
EN/LZT 146 307 R4A August 2008
PKM 4000C PINB Series
DC/DC converters, Input 36-75 V, Output 55 A/204 W
© Ericsson Power Modules AB
3.3 V Typical Characteristics
PKM 4110C PINB
Efficiency
Power Dissipation
[%]
93
[W]
20
91
89
87
85
83
16
12
8
36 V
48 V
53 V
75 V
36 V
48 V
53 V
75 V
4
0
0
5
10 15 20 25 30 35 40 45 50 [A]
0
5
10 15 20 25 30 35 40 45 50 [A]
Dissipated power vs. load current and input voltage at
ref = +25°C
Efficiency vs. load current and input voltage at Tref = +25°C
T
Output Current Derating
Thermal Resistance
[A]
50,0
[°C/W]
6
3.0 m/s
2.5 m/s
2.0 m/s
1.5 m/s
1.0 m/s
Nat. Conv.
40,0
30,0
20,0
10,0
4
2
0
0,0
0,0
0,5
1,0
1,5
2,0
2,5
3,0[m/s]
20 30 40 50 60 70 80 90 100 [°C]
Available load current vs. ambient air temperature and airflow at
VI = 53 V. See Thermal Consideration section.
Thermal resistance vs. airspeed measured at the converter. Tested in
wind tunnel with airflow and test conditions as per
the Thermal consideration section.
[V]
[V]
3,40
4,0
3,0
2,0
1,0
0,0
3,35
3,30
3,25
3,20
36 V
48 V
53 V
75 V
36 V
48 V
53 V
75 V
50,0
55,0
60,0
65,0
70,0
75,0 [A]
0
5
10 15 20 25 30 35 40 45 50 [A]
Output voltage vs. load current at Tref = +25°C
Output voltage vs. load current at IO > max IO , Tref = +25°C
E
10
Technical Specification
EN/LZT 146 307 R4A August 2008
PKM 4000C PINB Series
DC/DC converters, Input 36-75 V, Output 55 A/204 W
© Ericsson Power Modules AB
3.3 V Typical Characteristics
PKM 4110C PINB
Start-up
Shut-down
Start-up enabled by connecting VI at:
Top trace: output voltage (1 V/div.).
Bottom trace: input voltage (20 V/div.).
Time scale: 5 ms/div..
Shut-down enabled by disconnecting VI at:
ref = +25°C, IO = 10 A load,
VI = 53 V
Top trace: output voltage (1 V/div.).
Bottom trace: input voltage (20 V/div.).
Time scale: 0.1 ms/div..
Tref = +25°C, IO = 50 A resistive load,
T
VI = 53 V.
Output Ripple & Noise
Output Load Transient Response
Output voltage ripple (20mV/div.) at:
Tref = +25°C, IO = 50 A resistive load,
VI = {53 V}. Time scale: 5 μs/div.
See the filter in the Output ripple and noise
section (EMC Specification).
Output voltage response to load current step- Top trace: output voltage (200mV/div.).
change (12.5-47.5-12.5 A) at:
Bottom trace: load current (12.5 A/div.).
Time scale: {0.1 ms/div.}.
Tref =+25°C, VI = 53 V.
Output Voltage Adjust (see operating information)
Passive trim
The resistor value for an adjusted output voltage is calculated by using
the following equations:
The PKM4000C series DC/DC converters can be
offered with a baseplate. Baseplate helps to cool
hotspots more efficient during heavy load. The
baseplate have approximately 5°C improved
derating compared to datasheet showing non
baseplated PKM4000C. The baseplate is intended
to be mounted on a cold wall to transfer heat away
from the converter. By mounting PKM4000C in this
way thermal derating can be improved by more
than 10°C .
Output Voltage Adjust Upwards, Increase:
Radj= 5.11((3.3(100+Δ%))/1.225Δ%-(100+2Δ%)/Δ%) kOhm
Eg Increase 4% =>Vout =3.43 Vdc
5.11(3.3(100+4)/1.225x4-(100+2x4)/4 = 220 kOhm
Output Voltage Adjust Downwards, Decrease:
Radj= 5.11(100/Δ%-2) kOhm
Eg Decrease 2% =>Vout = 3.23 Vdc
5.11(100/2-2)= 245 kOhm
E
11
Technical Specification
EN/LZT 146 307R4AAugust 2008
PKM 4000C PINB Series
© Ericsson Power Modules AB
DC/DC converters, Input 36-75 V, Output 55 A/204 W
5.0 V Electrical Specification
PKM 4211C PINB
Tref = -40 to +90ºC, VI = 36 to 75 V, unless otherwise specified under Conditions.
Typical values given at: Tref = +25°C, VI= 53 V, max IO , unless otherwise specified under Conditions.
Characteristics
Conditions
min
36
typ
max
75
Unit
V
VI
Input voltage range
VIoff
VIon
CI
Turn-off input voltage
Turn-on input voltage
Internal input capacitance
Output power
Decreasing input voltage
Increasing input voltage
32
34
V
V
5.7
µF
W
PO
Output voltage initial setting
f = 100 Hz sinewave, 1 Vp-p
50 % of max IO
0
200
SVR
Supply voltage rejection (ac)
70
dB
92.9
91.3
93.0
91.2
max IO
90
η
Efficiency
%
50 % of max IO , VI = 48 V
max IO , VI = 48 V
max IO
Pd
Pli
Power Dissipation
Input idling power
Input standby power
Switching frequency
22.2
W
W
IO= 0, VI = 53 V
3.1
100
200
PRC
fs
VI = 53 V (turned off with RC)
0 -100% of max IO
mW
kHz
180
220
Output voltage initial setting and
accuracy
4.90
5.00
5.10
V
T
ref = +25°C, VI = 53 V, IO = 40.0 A
VOi
Vadj, see Note 1
Output adjust range
Output voltage tolerance band
Idling voltage
4.50
4.80
4.80
5.50
5.20
5.20
35
V
V
10-100% of max IO
IO = 0
V
VO
Line regulation
max IO
mV
mV
Load regulation
VI = 53 V, 1-100% of max IO
35
Load transient
voltage deviation
VI = 53 V, Load step 25-75-25 % of
max IO, di/dt = 1 A/µs,
see Note 2
Vtr
ttr
tr
±700
100
13
mV
Us
Load transient recovery time
Ramp-up time
(from 10−90 % of VOi)
7
30
ms
10-100% of max IO
Start-up time
(from VI connection to 90% of VOi)
ts
9
0
15
50
40
ms
IO
Output current
A
A
A
Ilim
Isc
Current limit threshold
Short circuit current
Vo = 4.5 V, Tref < max Tref
54
67
Tref = 25ºC, VO = < VOnom * 0.1
See ripple & noise section,
max IO, VO.
VOac
Output ripple & noise
60
150
mVp-p
V
Tref = +25°C, VI = 53 V, IO = 0-100%
OVP
Over Voltage Protection
6.2
of max IO
Note 1: When using Vadj function, max output power (PO) must not be exceeded
Note 2: Output filter according to Ripple & Noise section
E
12
Technical Specification
EN/LZT 146 307R4AAugust 2008
PKM 4000C PINB Series
© Ericsson Power Modules AB
DC/DC converters, Input 36-75 V, Output 55 A/204 W
5.0 V Typical Characteristics
PKM 4211C PINB
Efficiency
Power Dissipation
[W]
24
[%]
95
20
16
12
8
93
91
89
87
85
36 V
48 V
53 V
75 V
36 V
48 V
53 V
75 V
4
0
0,0 5,0 10,0 15,0 20,0 25,0 30,0 35,0 40,0[A]
0,0 5,0 10,0 15,0 20,0 25,0 30,0 35,0 40,0 [A]
Dissipated power vs. load current and input voltage at
ref = +25°C
Efficiency vs. load current and input voltage at Tref = +25°C
T
Output Current Derating
Thermal Resistance
[°C/W]
8
[A]
40,0
3.0 m/s
30,0
20,0
10,0
0,0
2.5 m/s
2.0 m/s
1.5 m/s
1.0 m/s
Nat. Conv.
6
4
2
20
30
40
50
60
70
80
90 100 [°C]
0,0
0,5
1,0
1,5
2,0
2,5
3,0[m/s]
Available load current vs. ambient air temperature and airflow at
VI = 53 V. See Thermal Consideration section.
Thermal resistance vs. airspeed measured at the converter.
Tested in wind tunnel with airflow and test conditions as per
the Thermal consideration section.
Output Characteristics
Current Limit Characteristics
[V]
[V]
6,0
5,20
5,0
4,0
3,0
2,0
1, 0
5,10
5,00
4,90
36 V
48 V
53 V
75 V
36 V
48 V
53 V
75 V
4,80
0,0
0,0 5,0 10,0 15,0 20,0 25,0 30,0 35,0 40,0 [A]
40,0 45,0 50,0 55,0 60,0 65,0 70,0[A]
Output voltage vs. load current at Tref = +25°C
Output voltage vs. load current at IO > max IO , Tref = +25°C
E
13
Technical Specification
EN/LZT 146 307R4AAugust 2008
PKM 4000C PINB Series
© Ericsson Power Modules AB
DC/DC converters, Input 36-75 V, Output 55 A/204 W
5.0 V Typical Characteristics
PKM 4211C PINB
Start-up
Shut-down
Start-up enabled by connecting VI at:
Tref = +25°C, IO = 40 A resistive load,
VI = 53 V.
Top trace: output voltage (2 V/div.).
Bottom trace: input voltage (20 V/div.).
Time scale: 5 ms/div..
Shut-down enabled by disconnecting VI at:
Tref = +25°C, IO = 4 A resistive load,
Output voltage: 2 V/div
Time scale: 2 ms/div.
Output Ripple & Noise
Output Load Transient Response
Output voltage ripple (20mV/div.) at:
Tref = +25°C, IO = 40 A resistive load,
VI = {53 V}. Time scale: 2 µs/div.
See the filter in the Output ripple and noise
section (EMC Specification).
Output voltage response to load current step- Top trace: output voltage (500mV/div.).
change (10-30-10 A) at:
Bottom trace: load current (10 A/div.).
Time scale: {0.1 ms/div.}.
Tref =+25°C, VI = 53 V.
Output Voltage Adjust (see operating information)
Passive trim
The resistor value for an adjusted output voltage is calculated by using
the following equations:
The PKM4000C series DC/DC converters can be
offered with a baseplate. Baseplate helps to cool
hotspots more efficient during heavy load. The
baseplate have approximately 5°C improved
derating compared to datasheet showing non
baseplated PKM4000C. The baseplate is intended
to be mounted on a cold wall to transfer heat
away from the converter. By mounting PKM4000C
in this way thermal derating can be improved by
more than 10°C .
Output Voltage Adjust Upwards, Increase:
Radj= 5.11((5(100+∆%))/1.225∆%-(100+2∆%)/∆%) kOhm
Eg Increase 4% =>Vout =5.2 Vdc
5.11(5(100+4)/1.225x4-(100+2x4)/4 = 404 kOhm0
Output Voltage Adjust Downwards, Decrease:
Radj= 5.11(100/∆%-2) kOhm
Eg Decrease 2% =>Vout = 4.90 Vdc
5.11(100/2-2)= 245 kOhm
E
14
Technical Specification
EN/LZT 146 307R4AAugust 2008
PKM 4000C PINB Series
© Ericsson Power Modules AB
DC/DC converters, Input 36-75 V, Output 55 A/204 W
12 V Electrical Specification
PKM 4213C PINBSP
Tref = -40 to +90ºC, VI = 38 to 75 V, unless otherwise specified under Conditions.
Typical values given at: Tref = +25°C, VI= 53 V, max IO , unless otherwise specified under Conditions.
Characteristics
Conditions
min
38
typ
max
75
Unit
V
VI
Input voltage range
VIoff
VIon
CI
Turn-off input voltage
Turn-on input voltage
Internal input capacitance
Output power
Decreasing input voltage
Increasing input voltage
32
34
V
V
5.7
µF
PO
Output voltage initial setting
f = 100 Hz sinewave, 1 Vp-p
50 % of max IO
0
204
W
SVR
Supply voltage rejection (ac)
61
dB
94.2
93.4
94.4
93.3
max IO
92
η
Efficiency
%
50 % of max IO , VI = 48 V
max IO , VI = 48 V
Pd
Pli
Power Dissipation
Input idling power
Input standby power
Switching frequency
max IO
17.7
W
W
IO= 0, VI = 53 V
2.8
100
200
PRC
fs
VI = 53 V (turned off with RC)
0 -100% of max IO
mW
kHz
180
220
Output voltage initial setting and
accuracy
11.8
12.0
12.2
V
Tref = +25°C, VI = 53 V, IO = max IO
Vadj, see Note 1
VOi
Output adjust range
Output voltage tolerance band
Idling voltage
10.8
11.7
11.8
13.2
12.3
12.2
50
V
V
10-100% of max IO
IO = 0
V
VO
Line regulation
max IO
mV
mV
Load regulation
VI = 53 V, 1-100% of max IO
20
Load transient
voltage deviation
VI = 53 V, Load step 25-75-25 % of
Vtr
ttr
tr
±800
100
9
mV
us
max IO, di/dt = 1 A/
µs,
see Note 2
Load transient recovery time
Ramp-up time
(from 10−90 % of VOi)
5
20
ms
10-100% of max IO
Start-up time
(from VI connection to 90% of VOi)
ts
7
0
10
50
17
ms
IO
Output current
A
A
A
Ilim
Isc
Current limit threshold
Short circuit current
Vo = 10.8 V, Tref < max Tref
21
26
Tref = 25ºC, VO = < VOnom * 0.1
See ripple & noise section,
max IO, VO.
VOac
Output ripple & noise
100
200
mVp-p
V
Tref = +25°C, VI = 53 V, IO = 0-100%
OVP
Over Voltage Protection
14.3
of max IO
Note 1: When using Vadj function, max output power (
Note 2: Output filter according to Ripple & Noise section
P
O) must not be exceeded
E
15
Technical Specification
EN/LZT 146 307R4AAugust 2008
PKM 4000C PINB Series
© Ericsson Power Modules AB
DC/DC converters, Input 36-75 V, Output 55 A/204 W
12 V Typical Characteristics
PKM 4213C PINBSP
Efficiency
Power Dissipation
[%]
95
[W]
16
93
91
89
87
85
12
8
38 V
48 V
53 V
75 V
38 V
48 V
53 V
75 V
4
0
0,0
3,0
6,0
9,0
12,0
15,0
18,0 [A]
0,0
3,0
6,0
9,0
12,0
15,0
18,0 [A]
Dissipated power vs. load current and input voltage at
ref = +25°C
Efficiency vs. load current and input voltage at Tref = +25°C
T
Output Current Derating
Thermal Resistance
[°C/W]
8
[A]
18,0
3.0 m/s
2.5 m/s
2.0 m/s
1.5 m/s
1.0 m/s
Nat. Conv.
15,0
12,0
9,0
6
4
2
6,0
3,0
0,0
20 30 40 50 60 70 80 90 100 [°C]
0,0
0,5
1,0
1,5
2,0
2,5
3,0 [m/s]
Available load current vs. ambient air temperature and airflow at
VI = 53 V. See Thermal Consideration section.
Thermal resistance vs. airspeed measured at the converter. Tested in
wind tunnel with airflow and test conditions as per
the Thermal consideration section.
Output Characteristics
Current Limit Characteristics
[V]
[V]
15,0
12,20
12,0
9,0
6,0
3,0
0,0
12,10
12,00
11,90
11,80
38 V
48 V
53 V
75 V
38 V
48 V
53 V
75 V
0,0
3,0
6,0
9,0
12,0 15,0 18,0 [A]
17,0
19,0
21,0
23,0
25,0
27,0 [A]
O
utput voltage vs. load current at Tref = +25°C
Output voltage vs. load current at IO > max IO , Tref = +25°C
E
16
Technical Specification
EN/LZT 146 307R4AAugust 2008
PKM 4000C PINB Series
© Ericsson Power Modules AB
DC/DC converters, Input 36-75 V, Output 55 A/204 W
12 V Typical Characteristics
PKM 4213C PINBSP
Start-up
Shut-down
Start-up enabled by connecting VI at:
Tref = +25°C, IO = 17 A resistive load,
VI = 53 V.
Top trace: output voltage (5 V/div.).
Bottom trace: input voltage (20 V/div.).
Time scale: 5 ms/div..
Shut-down enabled by disconnecting VI at:
Tref = +25°C, IO = 0 A,
Output voltage (5 V/div.).
Time scale: 50us/div..
Output Ripple & Noise
Output Load Transient Response
Output voltage ripple (50mV/div.) at:
Tref = +25°C, IO = 17 A resistive load,
VI = {53 V}. Time scale: 2 µs/div.
See the filter in the Output ripple and noise
section (EMC Specification).
Output voltage response to load current step- Top trace: output voltage (500mV/div.).
change (4.25-12.75-4.25 A) at:
Tref =+25°C, VI = 53 V.
Bottom trace: load current (4.25 A/div.).
Time scale: {0.1 ms/div.}.
Output Voltage Adjust (see operating information)
Baseplate
Passive trim
The PKM4000C series DC/DC converters can be
The resistor value for an adjusted output voltage is calculated by using
the following equations:
offered with a baseplate. Baseplate helps to cool
hotspots more efficient during heavy load. The
baseplate have approximately 5°C improved derating
compared to datasheet showing non baseplated
PKM4000C. The baseplate is intended to be
mounted on a cold wall to transfer heat away from
the converter. By mounting PKM4000C in this way
thermal derating can be improved by more than
10°C.
Output Voltage Adjust Upwards, Increase:
Radj= 5.11((12(100+∆%))/1.225∆%-(100+2∆%)/∆%) kOhm
Eg Increase 4% =>Vout =12.48 Vdc
5.11(12(100+4)/1.225x4-(100+2x4)/4 = 404 kOhm
Output Voltage Adjust Downwards, Decrease:
Radj= 5.11(100/∆%-2) kOhm
Eg Decrease 2% =>Vout = 11.76 Vdc
5.11(100/2-2)= 245 kOhm
E
17
Technical Specification
EN/LZT 146 307 R4A August 2008
PKM 4000C PINB Series
DC/DC converters, Input 36-75 V, Output 55 A/204 W
© Ericsson Power Modules AB
EMC Specification
Conducted EMI measured according to EN55022, CISPR 22
and FCC part 15J (see test set-up).
The fundamental switching frequency is 200 kHz for
PKM 4211C PINB @ VI = 53 V, max IO.
Conducted EMI Input terminal value (typ)
Test set-up
Layout recommendation
The radiated EMI performance of the DC/DC converter will
depend on the PCB layout and ground layer design. It is also
important to consider the stand-off of the DC/DC converter.
If a ground layer is used, it should be connected to the output
of the DC/DC converter and the equipment ground or
chassis.
EMI without filter
A ground layer will increase the stray capacitance in the PCB
and improve the high frequency EMC performance.
External filter (class B)
Required external input filter in order to meet class B in
EN 55022, CISPR 22 and FCC part 15J.
Output ripple and noise
Output ripple and noise measured according to figure below.
See Design Note 022 for detailed information.
Filter components:
C1 = 0.68 μF
C2,3 = 1.0 μF
C4,5 = 2.2 nF
C6,7 = 100 uF
L1,2 = 0.768 mH
Output ripple and noise test setup
EMI with filter
E
18
Technical Specification
EN/LZT 146 307R4AAugust 2008
PKM 4000C PINB Series
© Ericsson Power Modules AB
DC/DC converters, Input 36-75 V, Output 55 A/204 W
is not required when powering the DC/DC converter from a
low impedance source with short, low inductance, input
power leads.
Operating information
Input Voltage
The input voltage range 36 to 75Vdc meets the requirements
of the European Telecom Standard ETS 300 132-2 for normal
input voltage range in —48 and —60 Vdc systems, -40.5 to -
57.0 V and —50.0 to -72 V respectively. At input voltages
exceeding 75 V, the power loss will be higher than at normal
input voltage and Tref must be limited to absolute max
+110°C. The absolute maximum continuous input voltage is
80Vdc.
External Decoupling Capacitors
When powering loads with significant dynamic current
requirements, the voltage regulation at the point of load can
be improved by addition of decoupling capacitors at the load.
The most effective technique is to locate low ESR ceramic
and electrolytic capacitors as close to the load as possible,
using several parallel capacitors to lower the effective ESR.
The ceramic capacitors will handle high-frequency dynamic
load changes while the electrolytic capacitors are used to
handle low frequency dynamic load changes. Ceramic
capacitors will also reduce any high frequency noise at the
load.
Turn-off Input Voltage
The PKM 4000CSeries DC/DC converters monitor the input
voltage and will turn on and turn off at predetermined levels.
The minimum hysteresis between turn on and turn off input
voltage is 1 V.
It is equally important to use low resistance and low
inductance PCB layouts and cabling.
External decoupling capacitors will become part of the
control loop of the DC/DC converter and may affect the
stability margins. As a “rule of thumb”, 100 μF/A of output
current can be added without any additional analysis. The
ESR of the capacitors is a very important parameter. Power
Modules guarantee stable operation with a verified ESR value
of >10 mΩ across the output connections.
Remote Control (RC)
The products are fitted with a
remote control function referenced
to the primary negative input
connection (- In), with negative and
positive logic options available. The
RC function allows the converter to
be turned on/off by an external
device like a semiconductor or
mechanical switch. The RC pin has
an internal pull up resistor to + In.
For further information please contact your local Ericsson
Power Modules representative.
Output Voltage Adjust (Vadj
)
All PKM 4000CSeries DC/DC converters have an Output
Voltage adjust pin (Vadj). This pin can be used to adjust the
output voltage above or below Output voltage initial setting.
When increasing the output voltage, the voltage at the output
pins (including any remote sense offset) must be kept below
the maximum output adjust range. Also note that at increased
output voltages the maximum power rating of the converter
remains the same, and the output current capability will
decrease correspondingly.
To decrease the output voltage the resistor should be
connected between Vadj pin and —Sense pin. To increase the
voltage the resistor should be connected between Vadj pin
and +Sense pin. The resistor value of the Output voltage
adjust function is according to information given under the
output section.
The maximum required sink current is 1 mA. When the RC pin
is left open, the voltage generated on the RC pin is 3.5 — 6.0
V.
The second option is “positive logic” remote control, which
can be ordered by adding the suffix “P” to the end of the part
number. The converter will turn on when the input voltage is
applied with the RC pin open. Turn off is achieved by
connecting the RC pin to the - In. To ensure safe turn off the
voltage difference between RC pin and the - In pin shall be
less than 1V. The converter will restart automatically when
this connection is opened.
See Design Note 021 for detailed information.
Input and Output Impedance
The impedance of both the power source and the load will
interact with the impedance of the DC/DC converter. It is
most important to have a low characteristic impedance, both
at the input and output, as the converters have a low energy
storage capability. The PKM 4000CSeries DC/DC converters
have been designed to be completely stable without the need
for external capacitors on the input or the output circuits. The
performance in some applications can be enhanced by
addition of external capacitance as described under
maximum capacitive load. If the distribution of the input
voltage source to the converter contains significant
inductance, the addition of a 100μF capacitor across the
input of the converter will help insure stability. This capacitor
E
19
Technical Specification
EN/LZT 146 307R4AAugust 2008
PKM 4000C PINB Series
© Ericsson Power Modules AB
DC/DC converters, Input 36-75 V, Output 55 A/204 W
Operating information continued
Thermal Consideration
Parallel Operation
General
The PKM 4000CSeries DC/DC converters can be paralleled
for redundancy if external o-ring diodes are used in series
with the outputs. It is not recommended to parallel the PKM
4000C Series DC/DC converters for increased power without
using external current sharing circuits.
The PKM 4000Cseries DC/DC converters are designed to
operate in a variety of thermal environments, however
sufficient cooling should be provided to help ensure reliable
operation. Heat is removed by conduction, convection and
radiation to the surrounding environment. Increased airflow
enhances the heat transfer via convection. The available load
current vs. ambient air temperature and airflow at Vin =53 V
for each model is according to the information given under the
output section. The test is done in a wind tunnel with a cross
section of 305 x 305 mm, the DC/DC converter vertically
mounted on a 16 layer Pcb with a size of 254 x 254 mm, each
layer with 35 μm (1 oz) copper. Proper cooling can be verified
by measuring the temperature of selected devices. Peak
temperature can occur at positions P1 - P4. The temperature
at these positions should not exceed the recommended max
values.
See Design Note 006 for detailed information.
Remote Sense
All PKM 4000CSeries DC/DC converters have remote sense
that can be used to compensate for moderate amounts of
resistance in the distribution system and allow for voltage
regulation at the load or other selected point. The remote
sense lines will carry very little current and do not need a
large cross sectional area. However, the sense lines on the
Pcb should be located close to a ground trace or ground
plane. In a discrete wiring situation, the use of twisted pair
wires or other technique to reduce noise susceptibility is
highly recommended. The remote sense circuitry will
compensate for up to 10% voltage drop between the sense
voltage and the voltage at the output pins. The output voltage
and the remote sense voltage offset must be less than the
minimum over voltage trip point. If the remote sense is not
needed the —Sense should be connected to —Out and +Sense
should be connected to +Out.
Note that the max value is the absolute maximum rating
(non destruction) and that the electrical Output data is
guaranteed up to Tref +90°C.
See Design Note 019 for further information.
Position
P1
Device
Pcb
Designation
Tref
max value
110º C
P2
P3
P4
Mosfet
Tsurface
Tsurface
Tsurface
120º C
120º C
130º C
Over Temperature Protection (OTP)
Mosfet
The PKM 4000CSeries DC/DC converters are protected from
thermal overload by an internal over temperature shutdown
circuit. When the Pcb temperature (TC reference point)
exceeds the temperature trig point (~120 °C) the OTP circuit
will cut down output power. The converter will stop until safe
operating temperature is restored. Hysteresis between OTP
trig point and restart is approx 10°C. Time between OTP and
restart is dependant on cooling of DC/DC converter.
Transformer
Over Voltage Protection (OVP)
The PKM 4000CSeries DC/DC converters have output
overvoltage protection. In the event of an output overvoltage
condition, the converter will shut down immediately. The
converter make continous attempts to start up (non-latching
mode) and resume normal operation automatically.
Over Current Protection (OCP)
The PKM 4000CSeries DC/DC converters include current
limiting circuitry that allows them to withstand continuous
overloads or short circuit conditions on the output. The
output voltage will decrease towards zero for output currents
in excess of max output current (Iomax).
The converter will resume normal operation after removal of
the overload. The load distribution system should be
designed to carry the maximum output short circuit current
specified.
E
20
Technical Specification
EN/LZT 146 307R4AAugust 2008
PKM 4000C PINB Series
© Ericsson Power Modules AB
DC/DC converters, Input 36-75 V, Output 55 A/204 W
Thermal Consideration continued
Connections
Definition of reference temperature (Tref
)
The reference temperature is used to monitor the temperature
limits of the product. Temperatures above maximum Tref are
not allowed and may cause degradation or permanent
damage to the product. Tref is also used to define the
temperature range for normal operating conditions.
Tref is defined by the design and used to guarantee safety
margins, proper operation and high reliability of the module.
Ambient Temperature Calculation
By using the thermal resistance the maximum allowed
ambient temperature can be calculated.
Top View
1. The power loss is calculated by using the formula
((1/η) - 1) × output power = power losses (Pd).
η = efficiency of converter. E.g 90 % = 0.90
Pin
Designation
+In
Function
Positive input
1
2
RC
Remote control
2. Find the thermal resistance (Rth) in the Thermal Resistance
graph found in the Output section for each model.
Calculate the temperature increase (ΔT).
ΔT = Rth x Pd
3
- In
Negative input
4,10
5
- Out
- Sen
Vadj
+ Sen
+ Out
Negative output
Negative remote sense
Output voltage adjust
Positive remote sense
Positive output
6
3. Max allowed ambient temperature is:
Max Tref - ΔT.
7
8,9
E.g PKM 4213C PINBSP at 2m/s:
1
1. ((
) - 1) × 204 W = 14.6 W
0.933
2. 14.6 W × 5.7°C/W = 83°C
3. 110 °C — 83°C = max ambient temperature is 27°C
The real temperature will be dependent on several factors, like
Pcb size and type, direction of airflow, air turbulence etc.
It is recommended to verify the temperature by testing.
E
21
Technical Specification
EN/LZT 146 307 R4A August 2008
PKM 4000C PINB Series
DC/DC converters, Input 36-75 V, Output 55 A/204 W
© Ericsson Power Modules AB
Mechanical Drawing for Single Pin out
E
22
Technical Specification
EN/LZT 146 307 R4A August 2008
PKM 4000C PINB Series
DC/DC converters, Input 36-75 V, Output 55 A/204 W
© Ericsson Power Modules AB
Mechanical Drawing for Double Pin out
E
23
Technical Specification
EN/LZT 146 307 R4A August 2008
PKM 4000C PINB Series
DC/DC converters, Input 36-75 V, Output 55 A/204 W
© Ericsson Power Modules AB
Mechanical Drawing for Base plate option with Single Pin out
E
24
Technical Specification
EN/LZT 146 307 R4A August 2008
PKM 4000C PINB Series
DC/DC converters, Input 36-75 V, Output 55 A/204 W
© Ericsson Power Modules AB
Mechanical Drawing for Base plate option with Double Pin out
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25
Technical Specification
EN/LZT 146 307 R4A August 2008
PKM 4000C PINB Series
DC/DC converters, Input 36-75 V, Output 55 A/204 W
© Ericsson Power Modules AB
Soldering Information — Through hole mounting
The product is intended for through hole mounting in a PCB.
When wave soldering is used, the temperature on the pins is
specified to maximum 260 °C for maximum 10 seconds.
Maximum preheat rate of 4 °C/s and temperature of max
150 °C is suggested. When hands soldering care should be
taken to avoid direct contact between the hot soldering iron
tip and the pins for more than a few seconds in order to
prevent overheating.
A no-clean (NC) flux is recommended to avoid entrapment of
cleaning fluids in cavities inside of the DC/DC power module.
The residues may affect long time reliability and isolation
voltage.
Delivery package information
The products are delivered in antistatic trays.
Tray specifications
Material
Polyethylene foam, dissipative
105 < Ω/square < 1012
Surface resistance
Bake ability
Tray capacity
Tray height
The trays are not bakeable
20 products/tray
25.4 mm [1.0 inch]
Box capacity
Tray weight
20 products (1 full tray/box)
100 g empty, 1400 g full maximum
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26
Technical Specification
EN/LZT 146 307 R4A August 2008
PKM 4000C PINB Series
DC/DC converters, Input 36-75 V, Output 55 A/204 W
© Ericsson Power Modules AB
Product Qualification Specification
Characteristics
External visual inspection
IPC-A-610
Change of temperature
(Temperature cycling)
IEC 60068-2-14 Na
Temperature range
Number of cycles
Dwell/transfer time
-40 to +100 °C
300
30 min/0-1 min
Cold (in operation)
Damp heat
IEC 60068-2-1 Bc
Temperature TA
Duration
-40°C
2 h
IEC 60068-2-3 Ca
Temperature
Humidity
Duration
+85 °C
85 % RH
1000 hours
Dry heat
IEC 60068-2-2 Ba
IEC 60068-2-1 Ad
Temperature
Duration
+125 °C
1000 h
Heat (in operation)
Immersion in cleaning solvents
Temperature TA
Duration
+90 °C
72 h
IEC 60068-2-45 XA
Method 2
Water
Glycol ether
Isopropanol
+55 ±5 °C
+35 ±5 °C
+35 ±5 °C
Mechanical shock
IEC 60068-2-27 Ea
Peak acceleration
Duration
Pulse shape
Directions
100 g
3 ms
Half sine
6
Number of pulses
18 (3 + 3 in each perpendicular direction)
Resistance to soldering heat
Robustness of terminations
Solderability
IEC 60068-2-20 Tb
Method 1A
Solder temperature
Duration
260 °C
10 s
IEC 60068-2-21 Ua1
Tensile force
20 N for 10 s /signal pin
40 N for 10 s /power pin
IEC 60068-2-54
Preconditioning
Temperature, SnPb Eutectic
ageing 240 h 85°C /85%RH
235°C
Vibration, broad band random
IEC 60068-2-34 Eb
Frequency
Spectral density
Duration
10 to 500 Hz
0.025 g2/Hz
10 min in each 3 perpendicular directions
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