Ericsson Internal
PRODUCT SPECIFICATION 1 (4)
Prepared (also subject responsible if other) No.
SEC/S Marshall Wang
Approved Checked Date Rev Reference
2010-06-02 K T
Key Features
• Industry standard Quarter-brick
57.9 x 36.8 x 11.6 mm (2.28 x 1.45 x 0.46 in.)
• High efficiency, typ. 96 % at 12 Vout 50% load & 48Vin
• 1500 Vdc input to output isolation
• Meets safety requirements according to IEC/EN/UL
60950
• More than 1.1 million hours MTBF
General Characteristics
• N+1 parallelable
• Input under voltage protection
• Over temperature protection
• Output over voltage protection
• Output short-circuit protection
• Remote control
• SMD option with low profile 11.2mm
• Optional latching OTP, OVP
• Optional baseplate
• Optional case to ground pin (only with baseplate)
• Highly automated manufacturing ensures quality
• ISO 9001/14001 certified supplier
Safety Approvals Design for Environment
E210157 Meets requirements in high-
temperature lead-free soldering
processes.
Ericsson Internal
TABLE OF CONTENTS 1 (1)
Prepared (also subject responsible if other) No.
SEC/S Marshall Wang 001 52-EN/LZT 146 305 Uen
Approved Checked Date Rev Reference
2010-12-09 K
Contents
Ordering Information .............................................................2
General Information .............................................................2
Safety Specification .............................................................3
Absolute Maximum Ratings .............................................................4
Electrical Specification
12V, 25A / 290W PKM4204B PI.......................................5
12V, 33A / 380W PKM4304B ..........................................9
12.45V, 33A / 400W PKM4304B OA ..................................13
EMC Specification ........................................................... 16
Operating Information ...........................................................17
Thermal Consideration ........................................................... 19
Connections ...........................................................20
Mechanical Information ...........................................................21
Soldering Information ...........................................................24
Delivery Information ...........................................................25
Product Qualification Specification ........................................................... 27
E
PKM4000B series Intermediate Bus Converters
Input 36-75 V, Output up to 33 A / 400 W
EN/LZT 146 305 R6E January 2011
© Ericsson AB
Technical Specification
Ericsson Internal
PRODUCT SPECIFICATION 2 (4)
Prepared (also subject responsible if other) No.
SEC/S Marshall Wang
Approved Checked Date Rev Reference
2010-06-02 K T
Ordering Information
Product program Output
PKM 4304B 12 V, 33 A / 380 W
PKM 4204B PI 12 V, 25 A / 290 W
PKM 4304B OA* 12.45V, 33A / 400 W
* OA means 12.45V output
Product number and Packaging
PKM4304B n1 OA n2 n3 n4 n5 n6
Options n1 n2 n3 n4n5 n6
Mounting option ο
Remote control logic ο
Baseplate
ο
Case to ground pin
ο
Latching protections(OTP, OVP)
ο
Pin length
ο
Options Description
n1
n2
n3
n4
n5
n6
PI
SI
P
LP
HS
G
LA
LB
LC
Through hole
Surface mounting
Negative logic*
Positive logic
Latching protection
Open frame *
Baseplate
Case to ground pin
5.33 mm*
3.69 mm
4.57 mm
2.79 mm
Note: (1) Case to ground pin only available with baseplate
Note: (2) SMD option only available for PKM4304B series
and PKM4304B OA series
Note: (3) If several options needed below sequence is to be
used
LOGIC OPTION Æ LATCHING PROT. Æ BASEPLATE Æ
CASE GROUND Æ PIN LENGTH
Example: PKM4304BPIPLPHSGLA
* Standard variant (i.e. no option selected).
General Information
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 Telcordia SR332.
Predicted MTBF for the series is:
- 1.1 million hours according to Telcordia SR332, issue 1,
Black box technique.
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)
- 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)
Quality Statement
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.
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.
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).
© Ericsson AB 2009
E
PKM4000B series Intermediate Bus Converters
Input 36-75 V, Output up to 33 A / 400 W
EN/LZT 146 305 R6E January 2011
© Ericsson AB
Technical Specification
2
Ericsson Internal
PRODUCT SPECIFICATION 3 (4)
Prepared (also subject responsible if other) No.
SEC/S Marshall Wang
Approved Checked Date Rev Reference
2010-06-02 K T
The information and specifications in this technical
specification is believed to be correct at the time of
publication. However, no liability is accepted for
inaccuracies, printing errors or for any consequences
thereof. Ericsson AB reserves the right to change the
contents of this technical specification at any time without
prior notice.
Safety Specification
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 Equip m ent.
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
On-board DC-DC converters and DC/DC regulators are
defined as component power supplies. As components
they cannot fully comply with the provisions of any Safety
requirements without “Conditions of Acceptability”.
Clearance between conductors and between conductive
parts of the component power supply and conductors on
the board in the final product must meet the applicable
Safety requirements. Certain conditions of acceptability
apply for component power supplies with limited stand-off
(see Mechanical Information for further information). 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.
Component power supplies for general use should comply
with the requirements in IEC60950, EN60950 and UL60950
“Safety of information technology equipment”.
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.
Ericsson Power Modules DC/DC converters and DC/DC
regulators are UL60950 recognized and certified in
accordance with EN60950.
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.
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.
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:
• 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.
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.
48 and 60 V DC systems
If the input voltage to the 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.
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.
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
PKM4000B series Intermediate Bus Converters
Input 36-75 V, Output up to 33 A / 400 W
EN/LZT 146 305 R6E January 2011
© Ericsson AB
Technical Specification
3
Ericsson Internal
PRODUCT SPECIFICATION 1 (13)
Prepared (also subject responsible if other) No.
SECSUND 2/1301-BMR 653 Uen
Approved Checked Date Rev Reference
SEC/D (Julia You) EZHEWNG 2010-12-15 G
Absolute Maximum Ratings
Characteristics min typ max Unit
Open frame -40 +125
Tref Operating Temperature (see Thermal Consideration section) Base plate option -40 +95 °C
TS Storage temperature -55 +125 °C
VI Input voltage -0.5 +80 V
Viso Isolation voltage (input to output test voltage) 1500 Vdc
Vtr Input voltage transient (tp 100 ms) 100 V
Positive logic option -0.5 15
VRC Remote Control pin voltage
(see Operating Information section) Negative logic option -0.5 15 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
E
PKM4000B series Intermediate Bus Converters
Input 36-75 V, Output up to 33 A / 400 W
EN/LZT 146 305 R6E January 2011
© Ericsson AB
Technical Specification
4
Ericsson Internal
PRODUCT SPECIFICATION 2 (13)
Prepared (also subject responsible if other) No.
SECSUND 2/1301-BMR 653 Uen
Approved Checked Date Rev Reference
SEC/D (Julia You) EZHEWNG 2010-12-15 G
12 V/25 A Electrical Specification PKM 4204B PI
Tref = -40 to +90º C for open frame and -40 to +60ºC for base plate option, VI = 36 to 75 V, IO = 0 to 25 A 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 typ max Unit
VI Input voltage range 36 75 V
VIoff Turn-off input voltage Decreasing input voltage 32 33 34 V
VIon Turn-on input voltage Increasing input voltage 34 35.2 36 V
CI Internal input capacitance 17.6 μF
VI = 75 V 0 290 W
VI = 53 V 0 286 W
PO Output power
VI = 36 V 0 283 W
50 % of max IO 96.2
max IO 95.8
50 % of max IO , VI = 48 V 96.4
η Efficiency
max IO , VI = 48 V 95.9
%
Pd Power Dissipation max IO 12.4 W
Pli Input idling power IO= 0 A, VI = 53 V 3 W
PRC Input standby power VI = 53 V (turned off with RC) 0.1 W
fs Switching frequency 100 125 150 kHz
VOi Output voltage initial setting and
accuracy Tref = +25°C, VI = 53 V, IO = 0 A 11.85 11.9 11.95 V
Output voltage tolerance band 0 to 100 % of max IO 11.0 12.5 V
Idling voltage IO = 0 A 11.5 12.5 V
Line regulation max IO, from min VI to max VI 0.2 V
VO
Load regulation VI = 53 V, from min IO to max IO 0.4 V
Vtr Load transient
voltage deviation ±0.8 V
ttr Load transient recovery time
VI = 53 V, Load step 25-75-25 % of
max IO, di/dt = 5 A/μs
see Note 1 0.1 ms
tr Ramp-up time
(from 10−90 % of VOi) 3 7 15 ms
ts Start-up time
(from VI connection to 90 % of VOi)
max IO
4 12 25 ms
max IO 0.1 ms
tf VI shut-down fall time
(from VI off to 10 % of VO) IO = 0 A 2.4 s
RC start-up time max IO 10 ms
max IO 6 ms
tRC RC shut-down fall time
(from RC off to 10 % of VO) IO = 0 A 2.4 s
IO Output current 0 25 A
Ilim Current limit threshold Tref < max Tref 36 A
Isc Short circuit current Tref = 25ºC, see Note 2 42 A
VOac Output ripple & noise See ripple & noise section, max IO 200 mVp-p
OVP Output over voltage protection 13.5 V
Note 1: Output filter 2 x 220 µF, 100 mΩ, tantalum + 33 µF, ceramic
Note 2: See Operating Information section
E
PKM4000B series Intermediate Bus Converters
Input 36-75 V, Output up to 33 A / 400 W
EN/LZT 146 305 R6E January 2011
© Ericsson AB
Technical Specification
5
Ericsson Internal
PRODUCT SPECIFICATION 3 (13)
Prepared (also subject responsible if other) No.
SECSUND 2/1301-BMR 653 Uen
Approved Checked Date Rev Reference
SEC/D (Julia You) EZHEWNG 2010-12-15 G
12 V/25 A Typical Characteristics PKM 420 4B PI
Efficiency Power Dissipation
80
85
90
95
100
0 5 10 15 20 25 [A]
[%]
36 V
48 V
53 V
75 V
0
5
10
15
0 5 10 15 2 0 2 5 [ A ]
[W]
36 V
48 V
53 V
75 V
Efficiency vs. load current and input voltage at Tref = +25°C Dissipated power vs. load current and input voltage at
Tref = +25°C
Output Characteristics Current Limit Characteristics
11.0
11.2
11.4
11.6
11.8
12.0
0 5 10 15 20 25 [A]
[V]
36 V
48 V
53 V
75 V
38v
0
3
6
9
12
010203040[A]
[V]
36 V
48 V
53 V
75 V
Output voltage vs. load current at Tref = +25°C
Output voltage vs. load current at IO > max IO , Tref = +25°C
E
PKM4000B series Intermediate Bus Converters
Input 36-75 V, Output up to 33 A / 400 W
EN/LZT 146 305 R6E January 2011
© Ericsson AB
Technical Specification
6
Ericsson Internal
PRODUCT SPECIFICATION 4 (13)
Prepared (also subject responsible if other) No.
SECSUND 2/1301-BMR 653 Uen
Approved Checked Date Rev Reference
SEC/D (Julia You) EZHEWNG 2010-12-15 G
12 V/25 A Typical Characteristics PKM 420 4B PI
Output Current Derating, open frame Thermal Resistance, op en frame
0
5
10
15
20
25
0 2040 6080100[°C]
[A]
3.0 m/s
2.5 m/s
2.0 m/s
1.5 m/s
1.0 m/s
0.5 m/s
Nat. Conv.
0
2
4
6
8
10
0.0 0.5 1.0 1.5 2.0 2.5 3.0 [m/s]
[°C/W]
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 Current Derating, base plate option Thermal Resistan ce, base plate option
0
5
10
15
20
25
020406080100[°C]
[A]
3. 0 m/s
2. 5 m/s
2. 0 m/s
1. 5 m/s
1. 0 m/s
Na t. Con v.
0
2
4
6
8
10
0.0 0.5 1.0 1.5 2.0 2.5 3.0[m/s]
[°C/W]
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 Current Derating , base plate option with heat
sink*
Thermal Resistance, base plate option with h eat sin k*
0
5
10
15
20
25
0 20406080100[°C]
[A]
3. 0 m/s
2. 5 m/s
2. 0 m/s
1. 5 m/s
1. 0 m/s
Na t. Con v.
0
2
4
6
8
10
0.00.51.01.52.02.53.0[m/s]
[°C/W]
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.
*) Heat sink: finned aluminium, height: 0.23”; Thermal pad: thermal conductivity: 6W/mK, thickness: 0.25mm; Mounting: two M3 screws, torque: 0.44Nm
NOTE: the product is not mechanically tested with heat sink
E
PKM4000B series Intermediate Bus Converters
Input 36-75 V, Output up to 33 A / 400 W
EN/LZT 146 305 R6E January 2011
© Ericsson AB
Technical Specification
7
Ericsson Internal
PRODUCT SPECIFICATION 5 (13)
Prepared (also subject responsible if other) No.
SECSUND 2/1301-BMR 653 Uen
Approved Checked Date Rev Reference
SEC/D (Julia You) EZHEWNG 2010-12-15 G
Place your
graph here
Place your
graph here
12 V/25 A Typical Characteristics PKM 4204B PI
Start-up Shut-down
Start-up enabled by connecting VI at:
Tref = +25°C, IO = 25 A resistive load,
VI = 53V.
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 = 25 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.
Output Ripple & Noise Output Load Transient Response
Output voltage ripple at:
Tref = +25°C, VI = 53 V,
IO = 25 A resistive load.
Trace: output voltage (100 mV/div.).
Time scale: 2 µs/div.
Output voltage response to load
current step-change (6.25-18.75-6.25 A)
at: Tref =+25°C, VI = 53 V.
Top trace: output voltage (1 V/div.).
Bottom trace: load current (20 A/div.).
Time scale: 0.1 ms/div.
E
PKM4000B series Intermediate Bus Converters
Input 36-75 V, Output up to 33 A / 400 W
EN/LZT 146 305 R6E January 2011
© Ericsson AB
Technical Specification
8
Ericsson Internal
PRODUCT SPECIFICATION 6 (13)
Prepared (also subject responsible if other) No.
SECSUND 2/1301-BMR 653 Uen
Approved Checked Date Rev Reference
SEC/D (Julia You) EZHEWNG 2010-12-15 G
12 V/33 A Electrical Specification PKM 4304B PI
Tref = -40 to +90ºC for open frame and -40 to +60ºC for base plate option, VI = 36 to 75 V, IO = 0 to 33 A 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 typ max Unit
VI Input voltage range 36 75 V
VIoff Turn-off input voltage Decreasing input voltage 32 33 34 V
VIon Turn-on input voltage Increasing input voltage 34 35.2 36 V
CI Internal input capacitance 17.6 μF
VI = 75 V 0 380 W
VI = 53 V 0 377 W
PO Output power
VI = 36 V 0 371 W
50 % of max IO 96.4
max IO 95.1
50 % of max IO , VI = 48 V 96.5
η Efficiency
max IO , VI = 48 V 95.1
%
Pd Power Dissipation max IO 18 34 W
Pli Input idling power IO= 0 A, VI = 53 V 4 W
PRC Input standby power VI = 53 V (turned off with RC) 0.1 W
fs Switching frequency 100 125 150 kHz
VOi Output voltage initial setting and
accuracy Tref = +25°C, VI = 53 V, IO = 0 A 11.85 11.9 11.95 V
Output voltage tolerance band 0 to 100 % of max IO 10.8 12.5 V
Idling voltage IO = 0 A 11.5 12.5 V
Line regulation max IO, from min VI to max VI 0.2 0.6 V
VO
Load regulation VI = 53 V, from min IO to max IO 0.5 0.9 V
Vtr Load transient
voltage deviation ±1 V
ttr Load transient recovery time
VI = 53 V, Load step 25-75-25 % of
max IO, di/dt = 5 A/μs
see Note 1 0.1 ms
tr Ramp-up time
(from 10−90 % of VOi) 3 7 15 ms
ts Start-up time
(from VI connection to 90 % of VOi)
max IO
4 12 25 ms
max IO 0.1 ms
tf VI shut-down fall time
(from VI off to 10 % of VO) IO = 0 A 2.4 s
RC start-up time max IO 10 ms
max IO 6 ms
tRC RC shut-down fall time
(from RC off to 10 % of VO) IO = 0 A 2.4 s
IO Output current 0 33 A
Ilim Current limit threshold Tref < max Tref 41 A
Isc Short circuit current Tref = 25ºC, see Note 2 47 A
VOac Output ripple & noise See ripple & noise section, max IO 200 mVp-p
OVP Output over voltage protection 13.5 V
Note 1: Output filter 2 x 220 µF, 100 mΩ, tantalum + 33 µF, ceramic
Note 2: See Operating Information section
E
PKM4000B series Intermediate Bus Converters
Input 36-75 V, Output up to 33 A / 400 W
EN/LZT 146 305 R6E January 2011
© Ericsson AB
Technical Specification
9
Ericsson Internal
PRODUCT SPECIFICATION 7 (13)
Prepared (also subject responsible if other) No.
SECSUND 2/1301-BMR 653 Uen
Approved Checked Date Rev Reference
SEC/D (Julia You) EZHEWNG 2010-12-15 G
12 V/33 A Typical Characteristics PKM 430 4B PI
Efficiency Power Dissipation
80
85
90
95
100
0 5 10 15 20 25 30 [A]
[%]
36 V
48 V
53 V
75 V
0
5
10
15
20
25
0 5 10 15 20 25 30 [A]
[W]
36 V
48 V
53 V
75 V
Efficiency vs. load current and input voltage at Tref = +25°C Dissipated power vs. load current and input voltage at
Tref = +25°C
Output Characteristics Current Limit Characteristics
11.0
11.2
11.4
11.6
11.8
12.0
0
5
10
15
20
25
30
[A ]
[V]
36 V
48 V
53 V
75 V
0
3
6
9
12
0 1020304050[A]
[V]
36 V
48 V
53 V
75 V
Output voltage vs. load current at Tref = +25°C
Output voltage vs. load current at IO > max IO , Tref = +25°C
E
PKM4000B series Intermediate Bus Converters
Input 36-75 V, Output up to 33 A / 400 W
EN/LZT 146 305 R6E January 2011
© Ericsson AB
Technical Specification
10
Ericsson Internal
PRODUCT SPECIFICATION 8 (13)
Prepared (also subject responsible if other) No.
SECSUND 2/1301-BMR 653 Uen
Approved Checked Date Rev Reference
SEC/D (Julia You) EZHEWNG 2010-12-15 G
12 V/33 A Typical Characteristics PKM 430 4B PI
Output Current Derating, open frame Thermal Resistance, op en frame
0
5
10
15
20
25
30
0
20
40
60
80
100
[
°
C]
[A]
3.0 m/s
2.0 m/s
1.5 m/s
1.0 m/s
Nat. Conv.
0
2
4
6
8
10
0.0
0. 5
1.0
1.5
2.0
2.5
3.0
[m/s]
[°C/W]
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 Current Derating, base plate option Thermal Resistance, base plate option
0
5
10
15
20
25
30
0 20406080100[°C]
[A]
3.0 m/s
2.0 m/s
1.5 m/s
1.0 m/s
Nat. Conv.
0
2
4
6
8
10
0.0 0.5 1.0 1.5 2.0 2.5 3.0[m/s]
[°C/W]
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 Current Derating, base plate option with heat sink* Thermal Resistance, base plate op t ion with heat sink*
0
5
10
15
20
25
30
0 20 40 60 80 100 [°C]
[A]
3. 0 m/s
2. 5 m/s
2. 0 m/s
1. 5 m/s
1. 0 m/s
Nat. C on v.
0
2
4
6
8
10
0.0 0.5 1.0 1.5 2.0 2.5 3.0[m/s]
[°C/W]
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.
*) Heat sink: finned aluminium, height: 0.23”; Thermal pad: thermal conductivity: 6W/mK, thickness: 0.25mm; Mounting: two M3 screws, torque: 0.44Nm
NOTE: the product is not mechanically tested with heat sink
E
PKM4000B series Intermediate Bus Converters
Input 36-75 V, Output up to 33 A / 400 W
EN/LZT 146 305 R6E January 2011
© Ericsson AB
Technical Specification
11
Ericsson Internal
PRODUCT SPECIFICATION 9 (13)
Prepared (also subject responsible if other) No.
SECSUND 2/1301-BMR 653 Uen
Approved Checked Date Rev Reference
SEC/D (Julia You) EZHEWNG 2010-12-15 G
Place your
graph here
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graph here
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graph here
Place your
graph here
12 V/33 A Typical Characteristics PKM 4304B PI
Start-up Shut-down
Start-up enabled by connecting VI at:
Tref = +25°C, IO = 33 A resistive load,
VI = 53V.
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 = 33 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.
Output Ripple & Noise Output Load Transient Response
Output voltage ripple at:
Tref = +25°C, VI = 53 V,
IO = 33 A resistive load.
Trace: output voltage (100mV/div.).
Time scale: 2 µs/div.
Output voltage response to load
current step-change (8.25-24.75-8.25 A)
at: Tref =+25°C, VI = 53 V.
Top trace: output voltage (1 V/div.).
Bottom trace: load current (20 A/div.).
Time scale: 0.1 ms/div.
E
PKM4000B series Intermediate Bus Converters
Input 36-75 V, Output up to 33 A / 400 W
EN/LZT 146 305 R6E January 2011
© Ericsson AB
Technical Specification
12
Ericsson Internal
PRODUCT SPECIFICATION 10 (13)
Prepared (also subject responsible if other) No.
SECSUND 2/1301-BMR 653 Uen
Approved Checked Date Rev Reference
SEC/D (Julia You) EZHEWNG 2010-12-15 G
12.45 V/33 A Electrical Specification PKM 4304B PIOA
Tref = -40 to +60ºC, VI = 36 to 75 V, IO = 0 to 33 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 typ max Unit
VI Input voltage range 36 75 V
VIoff Turn-off input voltage Decreasing input voltage 32 33 34 V
VIon Turn-on input voltage Increasing input voltage 34 35.2 36 V
CI Internal input capacitance 17.6 μF
VI = 75 V 0 400 W
VI = 53 V 0 390 W
PO Output power
VI = 36 V 0 365 W
50 % of max IO 96.5
max IO 95.4
50 % of max IO , VI = 48 V 96.6
η Efficiency
max IO , VI = 48 V 95.2
%
Pd Power Dissipation max IO 18 25.5 W
Pli Input idling power IO= 0 A, VI = 53 V 4 W
PRC Input standby power VI = 53 V (turned off with RC) 0.125 W
fs Switching frequency 100 125 150 kHz
VOi Output voltage initial setting and
accuracy Tref = +25°C, VI = 53 V, IO = 0 A 12.38 12.43 12.48 V
Output voltage tolerance band 0 to 100 % of max IO 11.0 13.05 V
Idling voltage IO = 0 A 11.5 12.7 V
Line regulation max IO, from min VI to max VI
see Note 1 0.7 0.9 V
VO
Load regulation VI = 53 V, from min IO to max IO
see Note 2 0.53 0.79 V
Vtr Load transient
voltage deviation ±0.9 V
ttr Load transient recovery time
VI = 53 V, Load step 25-75-25 % of
max IO, di/dt = 5 A/μs
see Note 3 0.1 ms
tr Ramp-up time
(from 10−90 % of VOi) 3 7 15 ms
ts Start-up time
(from VI connection to 90 % of VOi)
max IO
4 12 25 ms
max IO 0.07 ms
tf VI shut-down fall time
(from VI off to 10 % of VO) IO = 0 A 1.5 s
RC start-up time max IO 10 ms
max IO 0.1 ms
tRC RC shut-down fall time
(from RC off to 10 % of VO) IO = 0 A 2 s
IO Output current 0 33 A
Ilim Current limit threshold Tref < max Tref 39 A
Isc Short circuit current Tref = 25ºC, see Note 4 47 A
VOac Output ripple & noise See ripple & noise section, max IO 200 mVp-p
OVP Output over voltage protection 13.53 15.22 V
Note 1: max Io, from 40V to max VI maximum line regulation is 0.2V.
Note 2: typical value range (0.45, 0.55)
Note 3: Output filter 470 µF, low ESR capacitor
Note 4: See Operating Information section
E
PKM4000B series Intermediate Bus Converters
Input 36-75 V, Output up to 33 A / 400 W
EN/LZT 146 305 R6E January 2011
© Ericsson AB
Technical Specification
13
Ericsson Internal
PRODUCT SPECIFICATION 11 (13)
Prepared (also subject responsible if other) No.
SECSUND 2/1301-BMR 653 Uen
Approved Checked Date Rev Reference
SEC/D (Julia You) EZHEWNG 2010-12-15 G
12.45 V/33 A Typical Characte ristics PKM 4304B PIOA
Efficiency Power Dissipation
80
85
90
95
10 0
0 5 10 15 2 0 2 5 3 0 [ A ]
[%]
36 V
48 V
53 V
75 V
0
5
10
15
20
25
0 5 10 15 20 25 30 [A]
[W]
36 V
48 V
53 V
75 V
Efficiency vs. load current and input voltage at Tref = +25°C Dissipated power vs. load current and input voltage at
Tref = +25°C
Output Characteristics Current Limit Characteristics
11.0
11.2
11.4
11.6
11.8
12.0
12.2
12.4
12.6
12.8
13.0
0 5 10 15 20 25 30 [A]
[V]
36 V
48 V
53 V
75 V
0
3
6
9
12
0 1020304050[A]
[V]
36 V
48 V
53 V
75 V
Output voltage vs. load current at Tref = +25°C
Output voltage vs. load current at IO > max IO , Tref = +25°C
Output Current Derating Thermal Resistance
0
5
10
15
20
25
30
0 2040 6080100[ °C]
[A]
3.0 m/s
2.0 m/s
1. 5 m/ s
1. 0 m/ s
Nat. Conv.
0
1
2
3
4
5
0.00.51.01.52.02.53.0[m/s]
[°C/W]
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.
E
PKM4000B series Intermediate Bus Converters
Input 36-75 V, Output up to 33 A / 400 W
EN/LZT 146 305 R6E January 2011
© Ericsson AB
Technical Specification
14
Ericsson Internal
PRODUCT SPECIFICATION 12 (13)
Prepared (also subject responsible if other) No.
SECSUND 2/1301-BMR 653 Uen
Approved Checked Date Rev Reference
SEC/D (Julia You) EZHEWNG 2010-12-15 G
Place your
graph here
Place your
graph here
Place your
graph here
Place your
graph here
12.45 V/33 A Typical Characte ristics PKM 4304B PIOA
Start-up Shut-down
Start-up enabled by connecting VI at:
Tref = +25°C, IO = 33 A resistive load,
VI = 53V.
Top trace: output voltage (5 V/div.).
Bottom trace: input voltage (50 V/div.).
Time scale: 5 ms/div.
Shut-down enabled by disconnecting VI
at: Tref = +25°C, IO = 33 A resistive load,
VI = 53 V.
Top trace: output voltage (5 V/div.).
Bottom trace: input voltage (50 V/div.).
Time scale: 5 ms/div.
Output Ripple & Noise Output Load Transient Response
Output voltage ripple at:
Tref = +25°C, VI = 53 V,
IO = 33 A resistive load.
Trace: output voltage (50mV/div.).
Time scale: 2 µs/div.
Output voltage response to load
current step-change (8.25-24.75-8.25 A)
at: Tref =+25°C, VI = 53 V.
Top trace: output voltage (1 V/div.).
Bottom trace: load current (20 A/div.).
Time scale: 0.1 ms/div.
E
PKM4000B series Intermediate Bus Converters
Input 36-75 V, Output up to 33 A / 400 W
EN/LZT 146 305 R6E January 2011
© Ericsson AB
Technical Specification
15
Ericsson Internal
PRODUCT SPECIFICATION 1 (6)
Prepared (also subject responsible if other) No.
EXUEFYA 3/1301-BMR 653 Uen
Approved Checked Date Rev Reference
SEC/D (Julia You) EQUENXU 2010-04-07 K
EMC Specification
Conducted EMI measured according to EN55022, CISPR 22
and FCC part 15J (see test set-up). See Design note 009 for
detailed information.
The fundamental switching frequency is 125 kHz for
PKM 4304B PI @ VI = 53 V, max IO.
Conducted EMI Input terminal value (typ)
EMI without filter
External filter (class B)
Required external input filter in order to meet class B in
EN 55022, CISPR 22 and FCC part 15J.
L1
C1 C2 C3
C4
C5
R
-
+
Module
+
-
0
0
L2
Filter components:
C1 = 1 + 1 μF
C2 = 1 + 1 μF
C3 = 1 + 1 + 33 μF
C4 = 2.2 nF
C5 = 2.2 nF
L1 = 0.809 mH
L2 = 0.809 mH
EMI with filter
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.
A ground layer will increase the stray capacitance in the PCB
and improve the high frequency EMC performance.
Output ripple and noise
Output ripple and noise measured according to figure below.
See Design Note 022 for detailed information.
10uF
0.1uF
-Vout
+Vout
*Conductor from Vout to capacitors = 50mm [1.97in.]
BNC
Connector
to Scope
Tantalum
Capacitor
Ceramic
Capacitor
+
Output ripple and noise test setup
E
PKM4000B series Intermediate Bus Converters
Input 36-75 V, Output up to 33 A / 400 W
EN/LZT 146 305 R6E January 2011
© Ericsson AB
Technical Specification
16
Ericsson Internal
PRODUCT SPECIFICATION 2 (6)
Prepared (also subject responsible if other) No.
EXUEFYA 3/1301-BMR 653 Uen
Approved Checked Date Rev Reference
SEC/D (Julia You) EQUENXU 2010-04-07 K
Operating information
Input Voltage
The input voltage range 36 to 75 Vdc 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 115°C. The absolute maximum continuous input
voltage is 80 Vdc.
Turn-off Input Voltage
The 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.
Remote Control (RC)
The products are fitted with a
remote control function referenced
to the primary negative input
connection (- In), and positive logic
options available. The RC function
allows the DC/DC 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.
The maximum required sink current is 0.2 mA. When the RC
pin is left open, the voltage generated on the RC pin is
max 10 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 DC/DC converter will turn on when the RC
pin is left 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
DC/DC converter will restart automatically when this
connection is opened.
Input and Output Impedance
The impedance of both the input source and the load will
interact with the impedance of the DC/DC converter. It is
important that the input source has low characteristic
impedance. The performance in some applications can be
enhanced by addition of external capacitance as described
under External Decoupling Capacitors. If the input voltage
source contains significant inductance, the addition of a
330 µF capacitor across the input of the DC/DC converter will
ensure stable operation.
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. It is equally
important to use low resistance and low inductance PWB
layouts and cabling.
For semi-regulated or fixed turns ratio IBC (intermediate bus
converters), there is no limit on the value of external output
capacitance, but there are practical performance
considerations that need to be made when using very large
capacitor values such as ramp-up time of the DC/DC converter
output voltage during start-up or turn-off discharge
considerations. If there are any questions associated with a
specific application configuration, please contact your local
Ericsson representative for support.
Parallel Operation
The PKM 4000B Series DC/DC converters can be connected
in parallel with a common input. Paralleling is accomplished by
connecting the output voltage pins and input pins directly. No
external components are necessary. Up to 90% of max output
current can be used from each module. Layout considerations
should be made to avoid unbalanced current sharing. For
more details on paralleling, please consult your local Ericsson
Power Modules representative.
Input Voltage 53V
11.2
11.4
11.6
11.8
12.0
0 102030405060
Output Current (A )
Output Voltage (V)
module 1
module 2
module 1 + 2
E
PKM4000B series Intermediate Bus Converters
Input 36-75 V, Output up to 33 A / 400 W
EN/LZT 146 305 R6E January 2011
© Ericsson AB
Technical Specification
17
Ericsson Internal
PRODUCT SPECIFICATION 3 (6)
Prepared (also subject responsible if other) No.
EXUEFYA 3/1301-BMR 653 Uen
Approved Checked Date Rev Reference
SEC/D (Julia You) EQUENXU 2010-04-07 K
Over Temperature Protection (OTP)
The DC/DC converters are protected from thermal overload by
an internal over temperature shutdown circuit.
When Tref as defined in thermal consideration section exceeds
125°C the DC/DC converter will shut down. The DC/DC
converter will make continuous attempts to start up (non
latching mode) We provide an optional variant of the product
with a latching OTP. Add suffix “LP” to the standard product
code to order the latching version. The latching OTP version
has a latching OVP as well.
If the OTP/OVP is latched the module can be put in operation
either by switching OFF and ON the input voltage or drive OFF
and ON the RC (Remote Control) pin.
Over Voltage Protection (OVP)
The DC/DC converters have output over voltage protection
that will shut down the DC/DC converter in over voltage
conditions. The DC/DC converter will make continuous
attempts to start up (non-latching mode) and resume normal
operation automatically after removal of the over voltage
condition.
Add suffix “LP” to the standard product code to order the
latching version. The latching OVP version has a latching OTP
as well.
If the OTP/OVP is latched the module can be put in operation
either by switching OFF and ON the input voltage or drive OFF
and ON the RC (Remote Control) pin.
Over Current Protection (OCP)
The DC/DC converters include current limiting circuitry for
protection at continuous overload.
The output voltage will decrease towards zero when the
output current exceeds max output current (max Io).
Under output short circuit, when the output current is in
excess of max output current (max Io), the DC/DC Converter
will enter a hiccup mode protection. The DC/DC converter will
resume normal operation after removal of the overload or
short circuit.
E
PKM4000B series Intermediate Bus Converters
Input 36-75 V, Output up to 33 A / 400 W
EN/LZT 146 305 R6E January 2011
© Ericsson AB
Technical Specification
18
Ericsson Internal
PRODUCT SPECIFICATION 4 (6)
Prepared (also subject responsible if other) No.
EXUEFYA 3/1301-BMR 653 Uen
Approved Checked Date Rev Reference
SEC/D (Julia You) EQUENXU 2010-04-07 K
Thermal Consideration
General
The product is designed to operate in various thermal
environments and sufficient cooling must be provided to
ensure reliable operation.
Cooling is achieved mainly by conduction, from the pins to the
host board, and convection. The size and copper thickness of
the host board will have impact on the Conduction cooling.
Convection cooling is dependant on the airflow across the
DC/DC converter. Increased airflow enhances the cooling of
the DC/DC converter.
The Output Current Derating graph found in the Output section
for each model provides the available output current vs.
ambient air temperature and air velocity at Vin = 53 V.
The DC/DC converter is tested on a 254 x 254 mm,
35 µm (1 oz), 16-layer test board mounted vertically in a wind
tunnel with a cross-section of 305 x 305 mm.
Proper cooling of the DC/DC converter can be verified by
measuring the temperature at reference point. The
temperature at these positions should not exceed the max
values provided in the table below.
Position Device Designation max value
Reference PCB - 125°C
Top view
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 reliability of the module.
Ambient Temperature Calculation
By using the thermal resistance the estimated maximum
allowed ambient temperature can be calculated.
1. The power loss is calculated by using the formula
((1/η) - 1) × output power = power losses (Pd).
η = efficiency of converter. E.g 96 % = 0.96
2. Find the thermal resistance (Rth) in the Thermal Resistance
graph found in the Output section for each model.
Calculate the temperature increase ( T).
T = Rth x Pd
3. Max allowed ambient temperature is:
Ta=Max Tref - T.
E.g. PKM4204B PI at 53Vin 20Aout 1.5 m/s
1. ((1/0.96) – 1) x 240W = 10 W
2. 10 W x 3.5o C = 35o C
3. 125o C – 35o C = max ambient temperature is 90o C
The actual temperature will be dependent on several factors
such as the PCB size, number of layers and direction of
airflow.
E
PKM4000B series Intermediate Bus Converters
Input 36-75 V, Output up to 33 A / 400 W
EN/LZT 146 305 R6E January 2011
© Ericsson AB
Technical Specification
19
Ericsson Internal
PRODUCT SPECIFICATION 5 (6)
Prepared (also subject responsible if other) No.
EXUEFYA 3/1301-BMR 653 Uen
Approved Checked Date Rev Reference
SEC/D (Julia You) EQUENXU 2010-04-07 K
Connections
Pin Designation Function
1 +In Positive input
2 RC Remote control
3 Case Case to GND (optional)
4 -In Negative input
5 -Out Negative output
6 +Out Positive output
E
PKM4000B series Intermediate Bus Converters
Input 36-75 V, Output up to 33 A / 400 W
EN/LZT 146 305 R6E January 2011
© Ericsson AB
Technical Specification
20
Ericsson Internal
PRODUCT SPECIFICATION 1 (4)
Prepared (also subject responsible if other) No.
MICUPEZ/EPETSCH 4/1301-BMR 653 Uen
Approved Checked Date Rev Reference
SEC/D [Julia You] See § 1 2010 -05-31 D
Mechanical Information — Through hole mount version
E
PKM4000B series Intermediate Bus Converters
Input 36-75 V, Output up to 33 A / 400 W
EN/LZT 146 305 R6E January 2011
© Ericsson AB
Technical Specification
21
Ericsson Internal
PRODUCT SPECIFICATION 2 (4)
Prepared (also subject responsible if other) No.
MICUPEZ/EPETSCH 4/1301-BMR 653 Uen
Approved Checked Date Rev Reference
SEC/D [Julia You] See § 1 2010 -05-31 D
Mechanical Information- Base plate
E
PKM4000B series Intermediate Bus Converters
Input 36-75 V, Output up to 33 A / 400 W
EN/LZT 146 305 R6E January 2011
© Ericsson AB
Technical Specification
22
Ericsson Internal
PRODUCT SPECIFICATION 3 (4)
Prepared (also subject responsible if other) No.
MICUPEZ/EPETSCH 4/1301-BMR 653 Uen
Approved Checked Date Rev Reference
SEC/D [Julia You] See § 1 2010 -05-31 D
Mechanical information — SMD version
E
PKM4000B series Intermediate Bus Converters
Input 36-75 V, Output up to 33 A / 400 W
EN/LZT 146 305 R6E January 2011
© Ericsson AB
Technical Specification
23
Ericsson Internal
PRODUCT SPEC. 1 (5)
Prepared (also subject responsible if other) No.
MICUPEZ/EPETSCH 5/1301 BMR 653 Uen
Approved Checked Date Rev Reference
EAB/FJB/GMF [Julia You] See §1 2010-05-25 B
Soldering Information – Surface Mounting
The surface mount product is intended for forced convection or vapor
phase reflow soldering in SnPb and Pb-free processes.
The reflow profile should be optimised to avoid excessive heating of the
product. It is recommended to have a sufficiently extended preheat time
to ensure an even temperature across the host PCB and it is also
recommended to minimize the time in reflow.
A no-clean flux is recommended to avoid entrapment of cleaning fluids
in cavities inside the product or between the product and the host
board, since cleaning residues may affect long time reliability and
isolation voltage.
Minimum Pin Temperature Recommendations
Pin number 5 is chosen as reference location for the minimum pin
temperature recommendation since this will likely be the coolest solder
joint during the reflow process.
SnPb solder processes
For SnPb solder processes, a pin temperature (TPIN) in excess of the
solder melting temperature, (TL, 183°C for Sn63Pb37) for more than
30 seconds and a peak temperature of 210°C is recommended to
ensure a reliable solder joint.
For dry packed products only: depending on the type of solder paste
and flux system used on the host board, up to a recommended
maximum temperature of 245°C could be used, if the products are kept
in a controlled environment (dry pack handling and storage) prior to
assembly.
General reflow process specifications SnPb eutectic Pb-free
Average ramp-up (TPRODUCT) 3°C/s max 3°C/s max
Typical solder melting
(liquidus) temperature TL 183°C 221°C
Minimum reflow time above
TL 30 s 30 s
Minimum pin temperature TPIN 210°C 235°C
Peak product temperature TPRODUC
T 225°C 260°C
Average ramp-down
(TPRODUCT) 6°C/s max 6°C/s max
Maximum time 25°C to peak 6 minutes 8 minutes
TPRODUCT maximum
TPIN minimum
Time
Pin
profile
Product
profile
TL
Time in
reflow
Time in preheat
/ soak zone
Time 25°C to peak
Temperature
Lead-free (Pb-free) solder processes
For Pb-free solder processes, a pin temperature (TPIN) in excess of the
solder melting temperature (TL, 217 to 221°C for SnAgCu solder alloys)
for more than 30 seconds and a peak temperature of 235°C on all
solder joints is recommended to ensure a reliable solder joint.
Maximum Product Temperature Requirements
Top of the product PCB near pin 2 is chosen as reference location for
the maximum (peak) allowed product temperature (TPRODUCT) since this
will likely be the warmest part of the product during the reflow process.
SnPb solder processes
For SnPb solder processes, the product is qualified for MSL 1 according
to IPC/JEDEC standard J-STD-020C.
During reflow TPRODUCT must not exceed 225 °C at an y time.
Pb-free solder processes
For Pb-free solder processes, the product is qualified for MSL 3
according to IPC/JEDEC standard J-STD-020C.
During reflow TPRODUCT must not exceed 260 °C at any time.
Dry Pack Information
Products intended for Pb-free reflow soldering processes are delivered
in standard moisture barrier bags according to IPC/JEDEC standard
J-STD-033 (Handling, packing, shipping and use of moisture/reflow
sensitivity surface mount devices).
Using products in high temperature Pb-free soldering processes
requires dry pack storage and handling. In case the products have been
stored in an uncontrolled environment and no longer can be considered
dry, the modules must be baked according to J-STD-033.
Thermocoupler Attachm ent
Pin 5 for measurement of minimum Pin (solder joint) temperature TPIN
Pin 2 for measurement of maximum product temperature TPRODUCT
E
PKM4000B series Intermediate Bus Converters
Input 36-75 V, Output up to 33 A / 400 W
EN/LZT 146 305 R6E January 2011
© Ericsson AB
Technical Specification
24
Ericsson Internal
PRODUCT SPEC. 2 (5)
Prepared (also subject responsible if other) No.
MICUPEZ/EPETSCH 5/1301 BMR 653 Uen
Approved Checked Date Rev Reference
EAB/FJB/GMF [Julia You] See §1 2010-05-25 B
Delivery Package Information – Surface Mount Version
The products are delivered in antistatic injection molded trays (Jedec
design guide 4.10D standard).
Tray Specifications
Material Antistatic PPE
Surface resistance 105 < Ohm/square < 1012
Bakability The trays can be baked at maximum
125°C for 48 hours
Tray thickness 14.50 mm 0.571 [inch]
Box capacity 20 products (2 full trays/box)
Tray weight 125 g empty, 573 g full tray
JEDEC standard tray for 2x5 = 10 products.
All dimensions in mm [inch]
Tolerances: X.x ±0.26 [0.01], X.xx ±0.13 [0.005]
Note: pick up positions refer to center of pocket.
See mechanical drawing for exact location on product.
E
PKM4000B series Intermediate Bus Converters
Input 36-75 V, Output up to 33 A / 400 W
EN/LZT 146 305 R6E January 2011
© Ericsson AB
Technical Specification
25
Ericsson Internal
PRODUCT SPEC. 3 (5)
Prepared (also subject responsible if other) No.
MICUPEZ/EPETSCH 5/1301 BMR 653 Uen
Approved Checked Date Rev Reference
EAB/FJB/GMF [Julia You] See §1 2010-05-25 B
Soldering Information - Hole Mounting
The hole mounted product is intended for plated through hole
mounting by wave or manual soldering. The pin temperature is
specified to maximum to 270°C for maximum 10 seconds.
A maximum preheat rate of 4°C/s and maximum preheat temperature
of 150°C is suggested. When soldering by hand, 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 flux is recommended to avoid entrapment of cleaning fluids
in cavities inside the product or between the product and the host
board. The cleaning residues may affect long time reliability and
isolation voltage.
Delivery Package Information – Hole Mount Version
The products are delivered in antistatic trays.
Tray Specifications
Material PE Foam
Surface resistance 105 < Ohm/square < 1012
Bakability The trays are not bakeable
Tray capacity 20 converters/tray
Box capacity 20 products (2 full trays/box)
Weight
Product – Open frame
1100 g full tray, 140g empty tray
Product – Base plate option
1480 g full tray, 140 g empty tray
E
PKM4000B series Intermediate Bus Converters
Input 36-75 V, Output up to 33 A / 400 W
EN/LZT 146 305 R6E January 2011
© Ericsson AB
Technical Specification
26
Ericsson Internal
PRODUCT SPEC. 4 (5)
Prepared (also subject responsible if other) No.
MICUPEZ/EPETSCH 5/1301 BMR 653 Uen
Approved Checked Date Rev Reference
EAB/FJB/GMF [Julia You] See §1 2010-05-25 B
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
1000
15 min/0-1 min
Cold (in operation) IEC 60068-2-1 Ad Temperature TA
Duration -45°C
72 h
Damp heat IEC 60068-2-67 Cy Temperature
Humidity
Duration
85°C
85 % RH
1000 hours
Dry heat IEC 60068-2-2 Bd Temperature
Duration 125°C
1000 h
Electrostatic discharge
susceptibility IEC 61340-3-1, JESD 22-A114
IEC 61340-3-2, JESD 22-A115 Human body model (HBM)
Machine Model (MM) Class 2, 2000 V
Class 3, 200 V
Immersion in cleaning solvents IEC 60068-2-45 XA, method 2 Water
Glycol ether
Isopropyl alcohol
55°C
35°C
35°C
Mechanical shock IEC 60068-2-27 Ea Peak acceleration
Duration 100 g
6 ms
Moisture reflow sensitivity 1 J-STD-020C Level 1 (SnPb-eutectic)
Level 3 (Pb Free) 225°C
260°C
Operational life test MIL-STD-202G, method 108A Duration 1000 h
Resistance to soldering heat 2 IEC 60068-2-20 Tb, method 1A Solder temperature
Duration 270°C
10-13 s
Robustness of terminations IEC 60068-2-21 Test Ua1
IEC 60068-2-21 Test Ue1 Through hole mount products
Surface mount products All leads
All leads
Solderability
IEC 60068-2-58 test Td 1
IEC 60068-2-20 test Ta 2
Preconditioning
Temperature, SnPb Eutectic
Temperature, Pb-free
Preconditioning
Temperature, SnPb Eutectic
Temperature, Pb-free
150°C dry bake 16 h
215°C
235°C
Steam ageing
235°C
245°C
Vibration, broad band random IEC 60068-2-64 Fh, method 1 Frequency
Spectral density
Duration
10 to 500 Hz
0.07 g2/Hz
10 min in each direction
Notes
1 Only for products intended for reflow soldering (surface mount products)
2 Only for products intended for wave soldering (plated through hole products)
E
PKM4000B series Intermediate Bus Converters
Input 36-75 V, Output up to 33 A / 400 W
EN/LZT 146 305 R6E January 2011
© Ericsson AB
Technical Specification
27
