Ericsson Internal
PRODUCT SPECIFICATION 1 (4)
Prepared (also subject responsible if other) No.
ESLUOAN 1/1301-BMR 629 8210 Uen
Approved Checked Date Rev Reference
SEC/D (Julia You) 2009-8-21 A A
Key Features
Industry standard POLA™ compatible
38.61 x 25.91 x 9.64 mm (1.52 x 1.02 x 0.38 in.)
High efficiency, up to. 96%
Auto Track™ sequencing pin
Turbo Trans™ Technology for Ultra-Fast Transient
Parallel Operation
General Characteristics
Operating temperature: -40ºC to 85ºC
Output over current protection (Non-latching, Auto-
Reset)
Output short-circuit protection
Input under voltage protection
Over temperature protection
Wide output voltage adjust function
±1.5% total output voltage variation
Remote sense
On/Off inhibit control
Start up into a pre-biased output
Highly automated manufacturi ng 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 ESLUOAN 00152-bmr62 98210 Uen
Approved Checked Date Rev Reference
EAB/FAC/P [Susanne Eriksson] 2009-09-01 F F
Contents
Ordering Information .............................................................2
General Information .............................................................2
Safety Specification .............................................................2
Absolute Maximum Ratings .............................................................4
Electrical Specification
3.3V, 40A / 132W PMR 8210 P.........................................5
5V, 40A / 200W PMR 8210 P.........................................7
EMC Specification .............................................................9
Operating Information .............................................................9
Thermal Consideration ........................................................... 14
Connections ...........................................................14
Mechanical Information ...........................................................1
Soldering Information ...........................................................
Delivery Information ...........................................................
Product Qualification Specification ........................................................... 2
E
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W EN/LZT 146 411 R1B November 2009
© Ericsson AB
Technical Specification
E
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W
EN/LZT 146 411 R1C March 2013
© Ericsson AB
Technical Specification
Ericsson Internal
PRODUCT SPECIFICATION 2 (4)
Prepared (also subject responsible if other) No.
ESLUOAN 1/1301-BMR 629 8210 Uen
Approved Checked Date Rev Reference
SEC/D (Julia You) 2009-8-21 A A
Ordering Information
Product program Output
PMR 8210 3-5.25 V, 40 A / 210 W
Product number and Packagin g
PMR 8210 n1n2
Options n1 n2
Mounting ο
Delivery package information ο
Options Description
n1
n2
P
S
SR
/B
/C
Through hole
Surface mount (SMD pin)
SMD pin with lead-free surface
Tray
Tape and Reel
Example: a lead-free through hole pin, tray packaged
product would be PMR 8210 P /B.
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 Informatio n
and Communication Technology (ICT) equipment. Different
methods could be used to calculate the pred icted MTBF
and failure rate which may give different results. Ericsson
Power Modules currently uses Telcordia SR332.
Predicted MTBF for the series is:
- 1.5 million hours according to Telcordia SR332,
issue 1, Black box technique.
Telcordia SR332 is a commonly used standard method
intended for reliability calc ulations in ICT equipment. T he
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 d evices
for which the predictions are to be made, i.e. all predictions
are based on gener ic reliability parameters.
Compatibility with RoHS requirements
The products are compatible wit h the rel evant clauses and
requirements of the RoHS directive 2002/95/EC and have a
maximum concentration value of 0.1% b y weight in
homogeneous materials for lead, mercury, hexavalent
chromium, PBB and PBDE and of 0.01% by weight in
homogeneous materials for cadmi um.
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 compon ents 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 prod ucts 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 Conditi ons of Sale.
Limitation of Liability
Ericsson Power Modules does not make any other
warranties, expressed or impli ed including any warranty of
merchantability or fitness for a particular purp ose
(including, but not limited to, use in life support
applications, where malfunctions of product can cause
injury to a person’s healt h or li fe).
© Ericsson AB 2009
The information and specifications in this technical
specification is believed to be correct at the time of
publication. However, no liabil ity 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
E
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W EN/LZT 146 411 R1B November 2009
© Ericsson AB
Technical Specification
2
E
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W
EN/LZT 146 411 R1C March 2013
© Ericsson AB
Technical Specification
2
Ericsson Internal
PRODUCT SPECIFICATION 3 (4)
Prepared (also subject responsible if other) No.
ESLUOAN 1/1301-BMR 629 8210 Uen
Approved Checked Date Rev Reference
SEC/D (Julia You) 2009-8-21 A A
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 acceptabilit y
apply for component po wer 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 compo nents 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 cert ified 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 Doub le or
Reinforced Insulation from the primar y 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 pr oduct 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 foll owing
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 verifi ed 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 i s 75 Vdc or
less, then the output remains SELV (Safety Extra Low
Voltage) under normal and a bnormal operating con ditions.
Single fault testing in the input power supply circuit should
be performed with the DC/DC converter connecte d 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 i n accord ance
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
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W EN/LZT 146 411 R1B November 2009
© Ericsson AB
Technical Specification
3
E
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W
EN/LZT 146 411 R1C March 2013
© Ericsson AB
Technical Specification
3
Ericsson Internal
PRODUCT SPECIFICATION 1 (6)
Prepared (also subject responsible if other) No.
ECOCOLO 2/1301-BMR 629 8210 Uen
Approved Checked Date Rev Reference
EJANLLI 2009-08-31 B
Absolute Maximum Ratings
Characteristics min typ max Unit
Tref Operating Temperature (see Thermal Consideration section) –40 85 °C
TS Storage temperature –40 125 °C
VI Input voltage 8 12 14 V
Positive logic option -0.2 Open V
VRC Remote Control pin voltage
(see Operating Information section) Negative logic option N/A N/A V
Vadj Adjust pin voltage (see Operating Information section) N/A N/A 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 in the Electrical Specification. If exposed to stre ss above these limits, function and performance
may degrade in an unspecified manner.
Fundamental Circuit Diagram
1
3 2
1
3
2
1 2
PWM Controller
Au to T r ack
RC Bl oc k
Error Am pl i fi er
Ref
GND
INH/UVLO
GND
VIN
GND
GND
VOUT
ADJ
TRK
-VSEN
Turbo Trans
SYNC
+VSEN
UVLO Prog Block
GND
SmartSync
Turbo Trans
E
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W EN/LZT 146 411 R1B November 2009
© Ericsson AB
Technical Specification
4
E
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W
EN/LZT 146 411 R1C March 2013
© Ericsson AB
Technical Specification
4
Ericsson Internal
PRODUCT SPECIFICATION 2 (6)
Prepared (also subject responsible if other) No.
ECOCOLO 2/1301-BMR 629 8210 Uen
Approved Checked Date Rev Reference
EJANLLI 2009-08-31 B
3.3V, 40A / 132W Electrical Specification PMR 8210
TP1 = -40 to +85ºC, VI = 8 to 14 V, RSET = 34.0 k, unless otherwise specified under Conditions.
Typical values given at: Tref = +25°C, VI= 12 V, max IO, unless otherwise specified under Conditions.
Additional Cin = 1000+22 µF and Cout = 1000 µF. See Operating Information section for selection of capacitor types.
Connect the sense pin, where available, to the output pin.
Characteristics Conditions min typ max Unit
VI Input voltage range 8 14 V
VIoff Turn-off input voltage Decreasing input voltage 6.7 V
VIon Turn-on input voltage Increasing input voltage 7.2 8.0 V
CI Internal input capacitance 44 μF
PO Output power 0 132 W
50 % of max IO 93.6
η Efficiency max IO 93.4 %
Pd Power Dissipation max IO 9.5 11.5 W
Pli Input idling power IO= 0 A, VI = 12 V 2.0 W
PRC Input standby power VI = 12 V (turned off with RC) 0.2 W
IS Static Input current VI = 12 V, max IO 11.7 A
fs Switching frequency 0-100 % of max IO, see Note 1 600 kHz
VOi Output voltage initial setting and
accuracy TP1 = +25°C, VI = 12 V, max IO 3.267 3.300 3.333 V
Output voltage tolerance band 0-100 % of max IO 3.25 3.35 V
Idling voltage IO = 0 A 3.296 3.306 V
Line regulation max IO 5 10 mV
VO
Load regulation VI = 12 V, 0-100 % of max IO 5 10 mV
Vtr Load transient
voltage deviation ±135 mV
ttr Load transient recovery time
VI = 12 V, Load step 50-100-50 % of
max IO, di/dt = 2.5 A/μs Without
TruboTrans, Cout = 1000 µF, Type C
see Note 2 200 μs
Vtr Load transient
voltage deviation ±35 mV
ttr Load transient recovery time
VI = 12 V, Load step 50-100-50 % of
max IO, di/dt = 2.5 A/μs
With TruboTrans, Cout = 5000 µF,
Type C, RTT=SHORT, see Note 2 400 μs
ts Start-up time
(from VI connection to 90 % of VOi) 13.2 ms
max IO 740 μs
tf VI shut-down fall time.
(From VI off to 10 % of VO) IO =0.4A 50.9 ms
RC start-up time max IO 12.5 ms
max IO 310 μs
{tRC tInh} RC shut-down fall time
(From RC off to 10 % of VO) Io = 0.4 A 24.5 ms
IO Output current 0 40 A
Ilim Current limit threshold TP1 < max TP1 80 A
Isc Short circuit current TP1 = 25ºC, see Note 3 92 A
Cout Recommended Capacitive Load TP1 = 25ºC, see Note 4 1000 10000 µF
VOac Output ripple & noise See ripple & noise section,
max IO 20 mVp-p
Note 1: Frequency may be adjusted with SmartSync pin. See Operating Information section
Note 2: See Operating Information section for TurboTrans technology
Note 3: Describe short circuit current characteristic, i.e. fold-back, hiccup or RMS, in one short sentence or type only “See Operating Information section.”)
Note 4: 1000 µF of external non-ceramic output capacitance is required for basic operation. Adding additional capacitance at the load further improves transient response. Up to 1000 µF of
ceramic capacitance may be added in addition to the required non-ceramic capacitance. When not using TurboTrans technology, 8000 µF capacitance is allowed; When using TurboTrans
technology, up to 10000 µF capacitance is allowed. For more information, see Operating Information Section.
E
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W EN/LZT 146 411 R1B November 2009
© Ericsson AB
Technical Specification
5
E
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W
EN/LZT 146 411 R1C March 2013
© Ericsson AB
Technical Specification
5
Ericsson Internal
PRODUCT SPECIFICATION 3 (6)
Prepared (also subject responsible if other) No.
ECOCOLO 2/1301-BMR 629 8210 Uen
Approved Checked Date Rev Reference
EJANLLI 2009-08-31 B
3.3V, 40A /132W Typical Characteristics PMR 8210
Efficiency Power Dissipation
75
80
85
90
95
100
0 5 10 15 20 25 30 35 40 [A]
[%]
8.0 V
12.0 V
14.0 V
0
2
4
6
8
10
0 5 10 15 20 25 30 35 40 [A]
[W]
8. 0 V
12.0 V
14.0 V
Efficiency vs. load current and input voltage at TP1 = +25°C Dissipated power vs. load current and input voltage at
TP1 = +25°C
Output Current Derating Output Characteristics
0
10
20
30
40
50
0 20 40 60 80 100 120 [°C]
[A]
2.0 m/s
1.0 m/s
0.5 m/s
Nat.
Conv.
3.25
3.30
3.35
3.40
3.45
0 5 10 15 20 25 30 [A]
[V]
8.0 V
12.0 V
14.0 V
Available load current vs. ambient air temperature and airflow at
VI = 12 V. See Thermal Consideration section.
Output voltage vs. load current at TP1 = +25°C
Output Ripple & Noise Output Voltage Adjust (see operating information)
Passive adjust
The resistor value for an adjusted output voltage is calculated by using the
equations in the operating information.
()
Ω
=k
O
V
SET 25.8
10
7.0
1.30
7.0
7.0
R
Output voltage ripple at:
TP1 = +25°C, VI = 12 V,
IO = 40 A resistive load.
Trace: output voltage (5 mV/div.).
Time scale: (2 µs/div.).
E
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W EN/LZT 146 411 R1B November 2009
© Ericsson AB
Technical Specification
6
E
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W
EN/LZT 146 411 R1C March 2013
© Ericsson AB
Technical Specification
6
Ericsson Internal
PRODUCT SPECIFICATION 4 (6)
Prepared (also subject responsible if other) No.
ECOCOLO 2/1301-BMR 629 8210 Uen
Approved Checked Date Rev Reference
EJANLLI 2009-08-31 B
5V, 40A / 200W Electrical Specification PMR 8210
TP1 = -40 to +85ºC, VI = 8 to 14 V, RSET = 1.37 k, unless otherwise specified under Conditions.
Typical values given at: Tref = +25°C, VI= 12 V, max IO, unless otherwise specified under Conditions.
Additional Cin = 1000+22 µF and Cout = 1000 µF. See Operating Information section for selection of capacitor types.
Connect the sense pin, where available, to the output pin.
Characteristics Conditions min typ max Unit
VI Input voltage range 8 14 V
VIoff Turn-off input voltage Decreasing input voltage 6.7 V
VIon Turn-on input voltage Increasing input voltage 7.2 8.0 V
CI Internal input capacitance 44 μF
PO Output power 0 200 W
50 % of max IO 95.6
η Efficiency max IO 95.5 %
Pd Power Dissipation max IO 9.5 11.5 W
Pli Input idling power IO= 0 A, VI = 12 V 2.4 W
PRC Input standby power VI = 12 V (turned off with RC) 0.2 W
IS Static Input current VI = 12 V, max IO 17.4 A
fs Switching frequency 0-100 % of max IO, see Note 1 600 kHz
VOi Output voltage initial setting and
accuracy TP1 = +25°C, VI = 12 V, max IO 4.950 5.0 5.050 V
Output voltage tolerance band 0-100 % of max IO 4.85 5.15 V
Idling voltage IO = 0 A 4.998 5.008 V
Line regulation max IO 5 10 mV
VO
Load regulation VI = 12 V, 0-100 % of max IO 5 10 mV
Vtr Load transient
voltage deviation ±135 mV
ttr Load transient recovery time
VI = 12 V, Load step 50-100-50 % of
max IO, di/dt = 2.5 A/μs Without
TruboTrans, Cout = 1000 µF, Type C 200 μs
Vtr Load transient
voltage deviation ±35 mV
ttr Load transient recovery time
VI = 12 V, Load step 50-100-50 % of
max IO, di/dt = 2.5 A/μs
With TruboTrans, Cout = 5000 µF,
Type C, RTT=SHORT 400 μs
ts Start-up time
(from VI connection to 90 % of VOi) 13.1 ms
max IO 630 μs
tf VI shut-down fall time.
(From VI off to 10 % of VO) IO =0.4A 51.8 ms
RC start-up time max IO 12.6 ms
max IO 425 μs
{tRC tInh} RC shut-down fall time
(From RC off to 10 % of VO) Io = 0.4 A 35.2 ms
IO Output current 0 40 A
Ilim Current limit threshold TP1 < max TP1 80 A
Isc Short circuit current TP1 = 25ºC, {see Note 3} 90 A
Cout Recommended Capacitive Load TP1 = 25ºC, {see Note 4} 1000 10000 µF
VOac Output ripple & noise See ripple & noise section,
max IO 20 mVp-p
Note 1: Frequency may be adjusted with SmartSync pin. See Operating Information section
Note 2: See Operating Information section for TurboTrans technology
Note 3: Describe short circuit current characteristic, i.e. fold-back, hiccup or RMS, in one short sentence or type only “See Operating Information section.”)
Note 4: 1000 µF of external non-ceramic output capacitance is required for basic operation. Adding additional capacitance at the load further improves transient response. Up to 1000 µF of
ceramic capacitance may be added in addition to the required non-ceramic capacitance. When not using TurboTrans technology, 8000 µF capacitance is allowed; When using TurboTrans
technology, up to 10000 µF capacitance is allowed. For more information, see Operating Information Section.
E
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W EN/LZT 146 411 R1B November 2009
© Ericsson AB
Technical Specification
7
E
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W
EN/LZT 146 411 R1C March 2013
© Ericsson AB
Technical Specification
7
Ericsson Internal
PRODUCT SPECIFICATION 5 (6)
Prepared (also subject responsible if other) No.
ECOCOLO 2/1301-BMR 629 8210 Uen
Approved Checked Date Rev Reference
EJANLLI 2009-08-31 B
5V, 40A /200W Typical Characteristics PMR 8210
Efficiency Power Dissipation
75
80
85
90
95
100
0 5 10 15 20 25 30 35 40 [A]
[%]
8.0
12.0 V
14.0 V
0
2
4
6
8
10
0 5 10 15 20 25 30 35 40 [A]
[W]
8.0 V
12.0 V
14.0 V
Efficiency vs. load current and input voltage at TP1 = +25°C Dissipated power vs. load current and input voltage at
TP1 = +25°C
Output Current Derating Output Characteristics
0
10
20
30
40
50
0 20406080100120[°C]
[A]
2.0 m/s
1.0 m/s
0.5 m/s
Nat.
Conv.
4.95
5.00
5.05
5.10
5.15
0 5 10 15 20 25 30 [A]
[V]
8.0 V
12.0 V
14.0 V
Available load current vs. ambient air temperature and airflow at
VI = 12 V. See Thermal Consideration section.
Output voltage vs. load current at TP1 = +25°C
Output Ripple & Noise Output Voltage Adjust (see operating information)
Passive adjust
The resistor value for an adjusted output voltage is calculated by
using the equations in the operating information.
()
Ω
=k
O
V
SET 25.8
10
7.0
1.30
7.0
7.0
R
Output voltage ripple at:
TP1 = +25°C, VI = 12 V,
IO = 40 A resistive load.
Trace: output voltage (5 mV/div.).
Time scale: (2 µs/div.).
E
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W EN/LZT 146 411 R1B November 2009
© Ericsson AB
Technical Specification
8
E
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W
EN/LZT 146 411 R1C March 2013
© Ericsson AB
Technical Specification
8
Ericsson Internal
PRODUCT SPECIFICATION
1 (10)
No.
EMQTUWX 3/1301-BMR 629 8210 Uen
Approved Checked Date Rev Reference
EMAOLII 2012-09-26 D
EMC Specification
Conducted EM I measured according to test set-up.
The fundamental switching f r equency is 600 kHz for
PMR 8210 @ VI = 12 V, max IO.
Conducted EMI Input terminal val ue ( typ)
TBD
EMI without filter
Test set-up
Layout recommendations
The radiated EMI performance of the product will depend on
the PCB layout and ground la yer design. It i s al s o i m portant
to consider the stand-off of the product. I f a ground layer is
used, it should be connected to the output of the product and
the equipment grou nd or chassis.
A ground layer wi l l increase the stray capacitance in the PCB
and improve th e hi gh frequency EMC performance.
Output ripple and noise
Output ripple and noise measured according to figure bel ow.
See Design Note 022 for detailed informati on.
Output ripple and noise test setup
Operating information
Extended information for PO LA products is found in
Applicatio n Note 205.
Input Voltage
The input voltage range 8 to 14 Vdc makes the product easy
to use in interm ediate bus applications when powered by a
non-regulated bus converter or a regulated bus converter.
Turn-off Input Voltage
The products m oni tor the input v ol tage and will turn on and
turn off at predetermined levels.
The typical hysteresis between turn on and turn off input
voltage is 0.5V.
Turn on/off voltage can be adjus ted by using UVLO
(Undervoltage lockout) func tion. The UVLO character is
defined by the ON threshold (VTHD) voltage. Below the ON
threshold, t he Inhibit control is overridden, and the module
does not produce an output.
The UVLO feature allows for limited adjustment of the ON
threshold voltage. It is made by using a sin gle resistor
between the Inhibit/UVLO pin (pin 21) and ground pins (pin
8,9,12,13). The VTHD v al ue can be adjust ed from 8.0V to
11V. Default value of VTHD is 7.2V.
Below equation determines the value of resistor required to
adjust VTHD to a new value.
=k
3.7
THD
V
250
UVLO
R
E
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W
EN/LZT 146 411 R1C March 2013
© Ericsson AB
Technical Specification
9
Ericsson Internal
PRODUCT SPECIFICATION
2 (10)
No.
EMQTUWX 3/1301-BMR 629 8210 Uen
Approved Checked Date Rev Reference
EMAOLII 2012-09-26 D
Inhibit Control
The products are fitted with
a remote contr ol function
by us ing the Inhibit/UVLO
pin. The I nhi bit control
function allows the product
to be turned on/off by an
external device like a
semiconductor or
mechanical switch.
The RC
pin has an internal pull up.
An external pu ll-up resist or
should never be used with
the inhibit pin.
When the Inhibit pin is left op en, the regulator will turn o n
when the input v ol tage is applied. Turn off i s achieved by
connecting the Inhibit pin to the GND.
The reference figure above shows the typical application of
the inhibit func tion. The i nput is not compat ible with TTL logic
device. An ope n-collector (or open-drain) discrete transistor is
recommended for control. Turning the discr ete transistor on
applies a low voltage to the I nhi bit control pi n and disables the
output of the module. If this device is then turned off, the
module executes a soft-start power-up sequence. A reg ul ated
output voltage is produced within 20 ms.
External Decoupling Capacitors
Input capacit ors:
The PMR 8210 requires a minim um i nput capacitance of e
1000 µF. The ripple current rating of the input capacitor must
be at least 750 mA rms. An optional 22 µF X5R/X7R ceramic
capacitor is r ecommended to reduce RMS ripple current.
The size and value of the input capac itor is determined by the
converter’s transient performance capability. This minimum
value assumes that the converter is supplied with a
responsive, low inductance input source. This source s hould
have ample capacitive decoupling, an d be distributed to the
converter vi a P C B power and ground planes.
Ceramic capacitors should be located as close as possible to
the module's input pins, withi n 0.5 inch (1,3 cm). Adding
ceramic capacitance is necessary to reduce the high-
frequency ripp le voltage at t he module's input. This reduces
the magnitud e of the ripple current through t he electrolytic
capacitor, as well as the amount of ripple curr ent reflected
back to the input source. Add itional ceram ic capacitor s can be
added to further reduce the RMS ripple current requirement
for the electrolytic capacitor .
The main considerations when selecting input capacitors are
the RMS ripple current rating, temperatur e stability, and less
than 100 mΩ of equivalent series resistance (ESR).
Regular tant al um capacitors are not recommended for the
input bus. These capacitors require a recommended
minimum voltage rating of 2× (maximum dc voltage + ac
ripple). This is standard practice to ensure reliability. No
tantalum capacitors were found with a sufficient voltage rating
to meet this requirement.
Output capac itors:
The PMR 8210 module requir es a minimum output
capacitanc e of 100F of polym er-aluminum, tantulum, or
polymer-tant alum type.
The required c apacitance abo ve the minimum is determine d
by actual transient deviat i on requirements. See
TurboTrans Technologyinformation below.
For both input and output capacitors, when the operating
temperature is below 0°C, the ESR of aluminium electrolytic
capacitors inc reases. For these applications, OS -CON, poly-
aluminium, and polymer-ta ntalum types should be considered.
If the TurboTrans feature is not used, minimum ESR and
maximum capacitor limits must be followed. System stability
may be effected and increased output capacitance may be
required without TurboTrans.
When using th e PMR 8210, obser ve the minimum ESR of the
entire output capacitor bank. The minimum ESR limit of the
output capacitor bank is 7mΩ.
When using PMR 8210 without the TurboTrans feature, the
maximum amount of capacitanc e i s 1000 µF of cer amic type.
Large amounts of capacita nc e may reduce system stability.
Utilizing the TurboTrans feature improves system stabili ty,
improves tra ns ient response, and reduces the amount of
output capacit ance required to meet system transient design
requirements. For detaile information, see TurboTrans
Technologyinformation below.
Output Voltage Adjust (Vadj)
The product has an Output Vo l tage Adjust function. The
function can be used to adjust t he output voltage in the range
from 3.0V to 5.25V.
The Vo Adjust control sets the output voltage of the PMR
8210. The adjustment method requires the addition of a single
external resis tor, RSET , that must be connected directl y
between pins Vo Adjust (pin 18) and AGND (pin 4) . The value
of the required resistor can b e calculated using the following
formula.
=k25.8
10
0.7
-
1.30
7.0
O
V
7.0
SET
R
Note:
(1) SET
R: Use a 0.05 W resistor with a tolerance of 1% and
temperature s tability of 100 ppm/°C (or better). Connect the
E
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W
EN/LZT 146 411 R1C March 2013
© Ericsson AB
Technical Specification
10
Ericsson Internal
PRODUCT SPECIFICATION
3 (10)
No.
EMQTUWX 3/1301-BMR 629 8210 Uen
Approved Checked Date Rev Reference
EMAOLII 2012-09-26 D
resistor dir ectly between pins 18 and 4, as close to the
regulator as p ossible, using dedicated PCB traces.
(2) Never connect capacitors from Vo Adjust to either +
Sense, GND, or Vo. Any capacitance added to the V o Adjust
pin affects the stability of the regulator .
(3) For output voltages less than 1.2 V, the output ripple may
increase (up to 2
×
) when opera ting at input voltages greater
than (Vo
×
12). Adjusti ng the switching frequenc y usi ng the
SmartSync feature may increase or decr ease this ratio.
Parallel Operation
The PMR 8210 module is capabl e of being configured in
parallel with another PMR 8210 module to share lo ad c urrent.
To parallel the two modules, it is necessary to configure one
module as the M aster and one module as the Slave. To
configure a mo dule as the Master, connect the CONFIG pin
(pin 1) to GND. The CONFIG pin of the Slave m ust be
connected to VI. In order to share current, pins 2 through 5 of
both the Maste r and Slave must be c onnected between the
two modules. The module that is configured as the MASTER
is used to control all of the functions of the two modules
including Inhibit, ON/OFF control, AutoTrack sequencing,
TurboTrans, SmartSync, +/- Remote Sense , and Output
Voltage Adjust. The MASTER and the SLAVE must be
powered from t he s ame input volt age supply.
When using T urboTrans while parallel ing two modules, the
TurboTrans resistor, RTT, must be connect ed from the
TurboTrans pi n (pin 19) of the M aster module to the +Sense
pin (pin 17) of the Master module. When paralleling modules
the procedur e to calculate the proper value of output
capacitance and RTT is similar to that explained in the
TurboTrans Selection secti on, however t he v al ues must be
calculated for a single module. Therefore, the total output
current load step must be halv ed before determ i ning the
required output capacitanc e and the RTT value as explained
in the TurboTrans Selectio n section. The v al ue of output
capacitanc e calculated is the minimum required output
capacitanc e per module and t he value of RTT must be
calculated using this value of output capac itance. The
TurboTrans pi n of the Slave modu l e m ust be left open.
Current sharing layout
In current sharing applications the VI pins of both modules
must be conne c ted to the same input bus. The VO pins of
both modules ar e connected together to power the load. The
GND pins of bot h m odules are connected via the GND plane.
Four other inte r-connection p ins are connected between t he
modules. Belo w figur e shows the required layout of the inter-
connection pins for two modules configured to share current.
Notice that the Share (pin 2) connection is r outed betwee n the
Comp (pin 3) and CLK IO (pin 5) connections. AGND (pin 4)
should be conn ec ted as a thicker trace on an adjacent layer,
running para ll el to pins 2, 3 and 5. AGND must not be
connected to t he GND plane.
E
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W
EN/LZT 146 411 R1C March 2013
© Ericsson AB
Technical Specification
11
..........................................................................................................................................................................................
RequiredConnectionsforCurrentSharing
TERMINALMASTERSLAVE
NAMENO.
VI6,7,14,15ConnecttotheInputBus.ConnecttotheInputBus.
VO10,11ConnecttotheOutputBus.ConnecttotheOutputBus.
GND8,9,12,13ConnecttoCommonPowerGND.ConnecttoCommonPowerGND.
InhibitandUseforInhibitcontrol&UVLOadjustments.If
21NoConnection.Leaveopen-circuit.
UVLOunusedleaveopen-circuit.
Usetosettheoutputvoltage.ConnectRSET
VoAdjust18NoConnection.Leaveopen-circuit.
resistorbetweenthispinandAGND(pin4).
Connecttotheoutputvoltageeitherattheloador
+Sense17NoConnection.Leaveopen-circuit.
atthemodule(pin11).
ConnecttotheoutputGNDeitherattheloadorat
–Sense16NoConnection.Leaveopen-circuit.
themodule(pin13).
Track20ConnecttoTrackcontrolortoVI(pin15).NoConnection.Leaveopen-circuit.
ConnectTurboTransresistor,RTT,betweenthispin
TurboTrans™19NoConnection.Leaveopen-circuit.
and+Sense(pin17).
Connecttoanexternalclock.Ifunusedconnectto
SmartSync22ConnecttoCommonPowerGND.
GND.
CONFIG1ConnecttoGND.ConnecttotheInputBus.
Share2Connecttopin2ofSlave.Connecttopin2ofMaster.
Comp3Connecttopin3ofSlave.Connecttopin3ofMaster.
AGND4Connecttopin4ofSlave.Connecttopin4ofMaster.
CLKIO5Connecttopin5ofSlave.Connecttopin5ofMaster.
7\SLFDO&XUUHQW6KDULQJ'LDJUDP
Ericsson Internal
PRODUCT SPECIFICATION
4 (10)
No.
EMQTUWX 3/1301-BMR 629 8210 Uen
Approved Checked Date Rev Reference
EMAOLII 2012-09-26 D
Remote Sense
The products have remote sens e that can be used to
compensate for voltage drops between the o utput and the
point of load. T he sense traces should be loc ated close to the
PCB ground layer to reduce noise suscepti bility. The remote
sense circuitry will compensate for up to 0.3 voltage drop
between output pins and the point of load.
If the remote s ense is not needed + S ense should be
connected to + Out and Sense s hould be connected to Out.
Over Temperature Protection (OTP)
The regulators are protected from thermal overload by an
internal over t emperature shutdown circui t. If the internal
temperature exceeds the OTP threshold, t he m odules inhibit
control is int ernally pulled l ow. This turns the output off. The
voltage drops as the external o
utput capacitors are disc harged
by the load circuit. The product will make c ontinuous attempts
to start up (non-latching mode) and resume normal operation
automaticall y whe n the temperature h as dropped >10° C b
elow
the temperat ur e threshold.
Over Current Protection (OCP)
The regulators include current limiting c ircuitry for protection at
continuous ov erload. The output voltage will decrease t owards
zero for output currents in excess of max output c urrent (max
IO). The regulator will resume nor mal oper at ion after removal
of the overload. The load distribution should be designed for
the maximum output short circuit current specified.
Soft-start Power Up
From the moment a valid input v ol tage is applied, the soft-
start
control intr oduces a short ti m e-delay (typically 5-15
ms) before
allowing the output voltage to rise. The initial rise in input
current when the i nput voltage first star ts to rise is the charge
current drawn by the input capacitors.
Auto-Track™ Function
Auto-Track was designed to si m pl ify the amount of circuitry
required to ma ke the output voltage from eac h unit power up
and power down in sequence. The sequencing of two or more
supply voltages during power up is a common requirement for
complex mixed-signal applications, that us e dual-voltage VLSI
Ics such as DSPs, micro-processors and ASICs.
Notes on Use of Auto-Track™
1. The Track pin v oltage must be all owed to rise above the
module set-po int voltage bef ore the module regulates at its
adjusted set-point voltage.
2. The Auto-Track functi on tracks almost any voltage ramp
during power up, and is compatible with ramp
speeds of up to
1 V/ms.
3. The absolute maximum voltage that ma y be applied to the
Track pin is the input voltage VI.
4. The module cannot follow a voltage at it s track control
input until it has completed its soft-st ar t initialization.
This takes about 20 ms from the time that a valid voltage has
been applied t o its input. During this period, i t is
recommended that the Track pin be held at ground potential.
5. The Auto-Track functi on is disabled by connecting t he
Track pin to the input voltage (VI). When Auto-Track is
disabled, t he output volta ge rises according to its sof tstart
rate after inp ut power has been applied.
6. The Auto-Track pin should never be used to regulate the
modules output voltage for long-term, steady-state
operation.
Smart Sync
Smart Sync is a feature that all ows multiple power modules to
be synchronized to a common frequency. Wh en not used, this
pin must be connec t to GND. Driving the Smart Sync pins with
an external oscillator set to the desired fr equency,
synchronizes all c onnected modu les to the select ed requency.
The synchronization
frequency can be highe r or lower than the
nominal s witching frequency of the modules within the range
of 240 kHz to 400 kH z .
Synchronizing modules power ed from the same bus
eliminates beat frequencies r eflected back t o the input supply,
and also reduces EMI filter i ng requirements . Eliminatin g the
low beat frequencies (usua lly<10kHz) allows the EMI filter to
be designed to attenuate onl y the synchronization frequency.
Power modules can also be s ynchronized out of phase to
minimize ripple current and reduce input capacitance
requirements.
The PMR 8210 requires that t he external s yn chronization
frequency be p resent before a valid input voltage is prese nt or
before releas e of the inhibit c ontrol.
Pre-Bias Startup Capabili ty
E
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W
EN/LZT 146 411 R1C March 2013
© Ericsson AB
Technical Specification
12
Ericsson Internal
PRODUCT SPECIFICATION
5 (10)
No.
EMQTUWX 3/1301-BMR 629 8210 Uen
Approved Checked Date Rev Reference
EMAOLII 2012-09-26 D
A prebias star tup condition occurs as a result of an external
voltage being present at the o utput of a power module prior to
its output bec oming active.This often occurs in complex digital
systems when current from an other power sour ce is backfed
through a dual-s upply logic component, such as FPGA or
ASIC.
The PMR family of r egulators incorporate synchronous
rectifiers, but will not sink current during startup, or whenever
the Inhibit pin is held lo w. Howe v er, to ensure satisfactory
operation of this function, cer tain conditions must be
maintained.
For more inforamtion, please refer to Application Note 205.
Turbo TransTM Technology
Turbo TransTM optimizes the transient response of the
regulator with added external capacitance using a single
external resis tor. The benefits of this technology include:
reduced output capacitanc e, minimized output voltage
deviation fo l lowing a load tr ansient, and enhanced stabili ty
when using ultra-low ESR output capacitor s. The amout of
output capacit ance required to meet a target output voltage
deviation, is r eduded with Turbo TransTM activated. Likewise,
for a given amout of output capacitance, wit h Turbo TransTM
engaged, the amplitude of the voltage deviation following a
load transient is reduced. Applicatio ns requiring tight transient
voltage tolerances and minim ized capacitor footprint ar ea
benefit from this technology.
Utilizing Turbo TransTM requires connecti ng a resistor, RTT ,
between the +Sense pin (pin 17) and the T ur bo TransTM pin
(pin 19), The value of the resi s tor directly corresponds to the
amount of output capacitanc e required. For the PMR 8210,
the minimum required capaci tance is 1000µ F. When using
Turbo TransTM, capacitors with a c apacitance× E SR product
below 10,000 µF×mΩ are required.
To have a better understandi ng of the required capacitors with
Turbo TransTM, three types of capacitors are def ined
as below.
a.
1,000)ESRecapacitanc(100TypeA ×<=
b.
000)5ESRecapacitanc000(1TypeB ×<=
c.
10,000)ESRecapacitanc(5,000TypeC ×<=
As an example, let’s look at a 12-V application r equiring a 80
mv deviation during an 20A load trans ient. A majority of
560µF, 10mΩ output capacitors are used. Use the 12 V, Type
C capacitor chart. Dividing 80mV by 20A gives 4mV/A
transient vol tage deviation per amp of transient load set p.
Select 4mV/A on the Y-axis and r ead across to the “With
TurboTrans” plot. Following this poi nt down to the X-
axis gives
us a minimum required output capacitance of approximat ely
1700µF. The required RTT resistor value for 1700µF can then
be calculated or selected from the below table. The required
RTT resistor is approximately 31.6KΩ.
To see the benefit of Turbo TransTM
, follow the 4m V/A marking
across to the “Without TurboTrans” plot. Following that p oint
down shows th at you would need a minimum of 5500µF of
output capacit ance to meet the same transient deviation lim i t.
This is the benefit of Turbo TransTM .
A typical T ur bo Trans
TM
application schematic is als o s hown.
E
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W
EN/LZT 146 411 R1C March 2013
© Ericsson AB
Technical Specification
13
Ericsson Internal
PRODUCT SPECIFICATION
6 (10)
No.
EMQTUWX 3/1301-BMR 629 8210 Uen
Approved Checked Date Rev Reference
EMAOLII 2012-09-26 D
RTT Resistor Selection
The Turbo TransTM resistor value, RTT
can be determine d from
the Turbo TransTM programming equation, see the equation
below.
)(
1)
4700
(5
)
4700
(1
40
×
×= k
o
C
o
C
TT
R
Where Co is the total output capacitance in µF . Co values
greater than or equal to 4700 µF require RTT to be a short,
0Ω. (The above equation results in a negative value for RTT
when Co 4700 µF)
Thermal Consideration
General
The regulators are designed to operate in d i fferent thermal
environment s and sufficient cooling must be provided t o
ensure reliable operation.
Cooling is achieved mainly by conduction, fr om the pins to the
host board, and convection, which is dependant on the airflow
across the regul ator. Increas ed ai r flow enhanc es the cooling
of the regulator.
The typical Output Current D erating grap h can be
found in the
Output section for each model provides the available output
current vs. am bient air temperature and air v el oc i ty at VI = 12
V.
The product is tested on a 100 x 100 mm double-sided PCB
with 2 oz. copper and the direction of airfow fro pin 10 to pin
22. For surface mount packages, multiple vias must be
utilized.
Definition of product operating temperature
The product operating temperatures is use d to monitor the
temperature of the product, and proper therma
l conditions c an
be verified by measuring the temperature at positions P1, P2,
and P3. The temper ature at these positions (TP1, TP2, TP3,)
should not exc eed the maximum temperatures in the table
below. The number of measurement points may vary with
different ther mal design and topology. Temperatures above
maximum TP1, measured at the reference point P1 are not
allowed and m ay cause permanent damage.
Position Description Max Temp.
P1 Reference point (Q501) TP1=130º C
P2
Inductor (L501)
T
P2
=130º C
P3
Inductor (L502)
T
P3
=130º C
E
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W
EN/LZT 146 411 R1C March 2013
© Ericsson AB
Technical Specification
14
Ericsson Internal
PRODUCT SPECIFICATION
7 (10)
No.
EMQTUWX 3/1301-BMR 629 8210 Uen
Approved Checked Date Rev Reference
EMAOLII 2012-09-26 D
Connections
Pin Designation Function
1
CONFIG
When two modules are
connected together to share
load current o ne must be
configured as the MASTER
and the other as the SLAVE.
This pin is used to configure
the module as either
MASTER or SLAVE. To
configure the module as the
MASTER, connec t this pin to
GND. To condi gur e the
module as the S LAVE,
connect this pin to VI (pin 6).
When not sharing current,
this pin shoul d be connected
to GND.
2 Share This pin is used when
connecting two modules
together to sh are load
current. When two modules
are sharing th e current the
Share pin of both modules
must be conne c ted together.
When not sharing current,
this pin MUST be l eft open
(floating).
3
Comp
This pin is used when
connecting two modules
together to sh are load
current. When two modules
are sharing current the Comp
pin of bothe m odules must be
connected together. When
not sharing current, this pin
MUST be left open (floating).
4
AGND
This pin is the internal analog
ground of the module. This
pin provides the return pat h
for the VoAdjust resistor
(RSET). When two modules
are sharing current the AGND
pin of both mo dules must be
connected together. Also,
when two modules are
connected, RSET must be
connected only on the
MASTER module.
5
CLKIO
This pin is used when
connecting two modules
together to sh are load
current. When two modules
are sharing current the CLKO
pin of both mo dules must be
connected togethe. When not
sharing current, this pin
MUST be left open (floating).
6
I
V
The positive input voltage
power node to t he module,
which is referenced to
common GND.
7
I
V
See pin 6
8
GND
This is the c om mon ground
connection for the VI and Vo
power connections. It is also
the 0 Vdc reference for the
control inputs .
9 GND See pin 8
10
O
V
This regulated positive power
output with respect to GND.
11
O
V
See pin 10
12
GND
See pin 8
13
GND
See pin 8
14
I
V
See pin 6
15
I
V
See pin 6
16
-Sense
The sense input allows the
regulation ci r cuit to
compensate for voltage drop
between the m odule and the
load. The Sense pin should
always be connec ted to GND,
either at the load for optimal
voltage accuracy, or at the
module (pin 13 ).
E
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W
EN/LZT 146 411 R1C March 2013
© Ericsson AB
Technical Specification
15
Ericsson Internal
PRODUCT SPECIFICATION
8 (10)
No.
EMQTUWX 3/1301-BMR 629 8210 Uen
Approved Checked Date Rev Reference
EMAOLII 2012-09-26 D
17
+Sense
The sense input allows the
regulation ci r cuit to
compensate for voltage drop
between the m odule and the
load. The +Sense pin should
always be connec ted to VO,
either at the load for optimal
voltage accuracy, or at the
module (pin 11 ).
18
V
o
Adjust
A 0.05 W 1% resistor must be
directly connected bet ween
this pin and pin4 (AGND) to
set the output voltage to a
value higher than 0.7 V. The
temperature s tability of the
resistor sho uld be 100
ppm/ (or better). The
setpoint range for the output
voltage is fr om 0.7V to 3.6V.
If left open cir c ui t, the output
voltage defa ults to its lowest
value. For f urther information,
refer to the information for
each output voltage sector.
19 Turbo Trans
TM
This input pin a dj us ts the
transient response of the
regulator. To activate the
Turbo TransTM feature, a 1%,
50mW resistor must be
connected between this pin
and pin 17 (+Sense) very
close to the module. For a
given value of output
capacitanc e, a reduction in
peak output voltage deviati on
is achieved by using this
feature. If unused, this pin
must be left op en-circuit.
External capacitance must
never be connected to this
pin. The resis tance
requirement can be selected
from the Turbo TransTM
resistor table which is shown
above.
20
Track
This is an anal og c ontrol input
that enables the output
voltage to foll ow an external
voltage. This pin becomes
active typically 25 ms aft er
the input voltage has been
applied, and a llows direct
control of the o utput voltage
from 0 V up to the nominal
set-point voltage. Within t hi s
range the module’s output
voltage follows the voltage at
the Track pin on a volt-for-
volt
basis. When the control
voltage is raised above this
range, the module regulates
at its set-point voltage. T he
features allows the output
voltage to ris e s i m ul taneously
with other modules powered
from the same input bus. If
unused, this input should be
connected to VI .
NOTE: Due to the
undervoltage lockout feature,
the output of the module
cannot follow its own input
voltage during power up. For
more information, see the
related application note.
21
Inhibit and UV LO
The Inhibit pin is an open-
collector/ dr ain, negative logic
input that is referenced to
GND. Applying a low level
ground signa l to this input
disables th e m odule’s output
and turns off the output
voltage. When the Inhibit
control is active, the input
current drawn by the
regulator is significantly
reduced. If the Inhibit pin is
left open-circ uit, the module
produces an output whenever
a valid input s ource is
applied.
This pin is also used for input
undervoltage lockout(UVLO)
programming. Connecting a
resistor from this pin to GND
(pin 13) allows the ON
threshold of t he UVLO to be
adjusted higher than the
default valu e. For more
information, see relate d
application information.
E
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W
EN/LZT 146 411 R1C March 2013
© Ericsson AB
Technical Specification
16
Ericsson Internal
PRODUCT SPECIFICATION
9 (10)
No.
EMQTUWX 3/1301-BMR 629 8210 Uen
Approved Checked Date Rev Reference
EMAOLII 2012-09-26 D
22
SmartSync
This input pin sychronizes the
switching frequency of the
module to an external clock
frequency. The SmartSync
feature can be used to
sychronize t he switching
frequency of multiple
modules, aidi ng EMI noise
suppression efforts. The
external s ynchronization
frequency must be present
before a valid input voltage is
present, or before the releas e
of inhibit cont r ol. If unused,
this pin MUST be connected
to GND. For more
information, please see the
related application note.
E
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W
EN/LZT 146 411 R1C March 2013
© Ericsson AB
Technical Specification
17
Ericsson Internal
PRODUCT SPEC. MECHANICAL 1 (3)
Prepared (also subject responsible if other) No.
EXXUYNG 4/1301-BMR 629 Uen
Approved Checked Date Rev Reference
SEC/D (Julia You) See §1 2009-08-31 B
Mechanical Information - Surface mou nt version
E
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W EN/LZT 146 411 R1B November 2009
© Ericsson AB
Technical Specification
17
E
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W
EN/LZT 146 411 R1C March 2013
© Ericsson AB
Technical Specification
18
Ericsson Internal
PRODUCT SPEC. MECHANICAL 2 (3)
Prepared (also subject responsible if other) No.
EXXUYNG 4/1301-BMR 629 Uen
Approved Checked Date Rev Reference
SEC/D (Julia You) See §1 2009-08-31 B
Mechanical Information- Through hole mount version
E
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W EN/LZT 146 411 R1B November 2009
© Ericsson AB
Technical Specification
18
E
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W
EN/LZT 146 411 R1C March 2013
© Ericsson AB
Technical Specification
19
Ericsson Internal
PRODUCT SPECIFICATION
MECHANICAL 1 (4)
Prepared (also subject responsible if other) No.
EXXUYNG / EPETSCH 5/1301-BMR 629 Uen
Approved Checked Date Rev Reference
SEC/D [Julia You] See §1 2009-08-31 B
Soldering Information - Hole Mounting
The hole mounted product is intended for plated through ho le mounting by wave or manu al 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 sugge sted. When soldering by hand, care
should be taken to avoid direc t 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 is olation voltage.
Delivery Package Information
The products are delivered in tape and reel (SMD) or antistatic trays (TH & SMD)
Reel Specifications
Material Antistatic PS
Surface resistance 108 < Ohm/square < 1012
Bakeability The reels cannot be baked
Tape width, W 56 mm [2.205 inch]
Pocket pitch, P1 36 mm [1.417 inch]
Pocket depth, K0 10.4 mm [0.41 inch]
Reel diameter 330 mm [13 inch]
Reel capacity 150 products /reel
Reel weight 150 g empty, 2550 g/full reel
Carrier thickness 0.05 mm [0.002 inch]
Box capacity 300 products [2 reel/box)
E
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W EN/LZT 146 411 R1B November 2009
© Ericsson AB
Technical Specification
19
E
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W
EN/LZT 146 411 R1C March 2013
© Ericsson AB
Technical Specification
20
Ericsson Internal
PRODUCT SPECIFICATION
MECHANICAL 2 (4)
Prepared (also subject responsible if other) No.
EXXUYNG / EPETSCH 5/1301-BMR 629 Uen
Approved Checked Date Rev Reference
SEC/D [Julia You] See §1 2009-08-31 B
Tray Specifications
Material Antistatic PET
Surface resistance 108 < Ohm/square < 1012
Bakability The trays cannot be baked
Tray thickness 0.8 mm [0.03 inch]
Box capacity 125 products (5 full trays/box)
Tray weight 40 g empty, 440 g/full tray
Tray capacity 25 products/tray
Dry pack information
The products are delivered in trays or tape on reel. These inner shipment containers are dr y packed in standard moisture barrier
bags according to IPC/JEDEC standard J-STD-033A (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 co nsidered dry, the modules must be baked according
to the referred IPC/JEDEC standard.
E
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W EN/LZT 146 411 R1B November 2009
© Ericsson AB
Technical Specification
20
E
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W
EN/LZT 146 411 R1C March 2013
© Ericsson AB
Technical Specification
21
Ericsson Internal
PRODUCT SPECIFICATION
MECHANICAL 3 (4)
Prepared (also subject responsible if other) No.
EXXUYNG / EPETSCH 5/1301-BMR 629 Uen
Approved Checked Date Rev Reference
SEC/D [Julia You] See §1 2009-08-31 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
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W EN/LZT 146 411 R1B November 2009
© Ericsson AB
Technical Specification
21
E
PMR 8000 series PoL Regulator
Input 8 - 14 V, Output up to 40 A / 210 W
EN/LZT 146 411 R1C March 2013
© Ericsson AB
Technical Specification
22