PKM4110DPIPHCSPMLB [ERICSSON]

DC-DC Regulated Power Supply Module,;


型号：	PKM4110DPIPHCSPMLB
厂家：	ERICSSON
描述：	DC-DC Regulated Power Supply Module,
文件：	总33页 (文件大小：1708K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

Ericsson Internal

EBOZHAO

PRODUCT SPECIFICATION

1 (4)

Prepared (also subject responsible if other)

No.

1/1301-BMR 637 010 Uen

Technical Speciﬁcation

Approved

Checked

Date

Rev

Reference

EN/LZT 146 415 R4A Dec 2011

PKM 4000C PINB series Direct Converters

Input 36-75 V, Output up to 100 A / 204 W

SEC/D (Julia You)

2011-12-02

Key Features

•

Industry standard Quarter-brick and optional double pin-

out. 57.9 x 36.8 x 9.35 mm (2.28 x 1.45 x 0.368 in)

High efficiency, typ. 94.3% at 12 Vout half load

2250 Vdc input to output isolation

Meets isolation requirements equivalent to basic

insulation according to IEC/EN/UL 60950

More than 1.4 million hours MTBF

•

General Characteristics

•

Output over voltage protection

Over temperature protection

Output short-circuit protection

Hiccup over current protection

Remote control

Output voltage adjust function

Highly automated manufacturing ensures quality

ISO 9001/14001 certified supplier

Safety Approvals

Design for Environment

Meets requirements in high-

temperature lead-free soldering

processes.

Contents

Ordering Information

General Information

Safety Specification

.............................................................. 2

.............................................................. 3

.............................................................. 4

Absolute Maximum Ratings

Electrical Specification

1.5V, 100 A / 150 W

1.8V, 100 A / 180 W

3.3V, 50 A / 165 W

5.0V, 40 A / 200 W

12V, 17 A / 204 W

PKM 4218HC PINBHC ......................... 5

PKM 4218GC PINBHC......................... 9

PKM 4110C PINBHC.......................... 13

PKM 4211C PINBHC.......................... 17

PKM 4213C PINBHCSP..................... 21

EMC Specification

............................................................ 25

............................................................ 26

............................................................ 27

............................................................ 29

............................................................ 30

............................................................ 32

............................................................ 33

Operating Information

Thermal Consideration

Connections

Mechanical Information

Soldering Information

Delivery Information

Product Qualification Specification

Ericsson Internal

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No.

1/1301-BMR 637 010 Uen

Technical Speciﬁcation

Approved

Checked

Date

Rev

Reference

EN/LZT 146 415 R4A Dec 2011

PKM 4000C PINB series Direct Converters

Input 36-75 V, Output up to 100 A / 204 W

SEC/D (Julia You)

2011-12-02

MTBF at 90% confidence level = 2.8 Mh

Ordering Information

Product program

PKM 4218HC

PKM 4218GC

PKM 4110C

PKM 4211C

PKM 4213C

Output

Compatibility with RoHS requirements

1.5 V, 100 A / 150 W

1.8 V, 100 A / 180 W

3.3 V, 50 A / 165 W

5 V, 40 A / 200 W

12 V, 17 A / 204 W

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.

Product number and Packaging

PKM 4XXXD PI n₁n₂n₃n₄n₅

Exemptions in the RoHS directive utilized in Ericsson Power

Modules products include:

n₁

n₂

n₃

n₄

n₅

N₆

Options

Remote Control logic

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)

Baseplate

Hiccup OCP

Single Pin

Increased stand-off height

Lead length

Lead as an alloying element in copper alloy containing

up to 4% lead by weight (used in connection pins made

of Brass)

Options

n₁

Description

Quality Statement

Negative *

Positive

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.

n₂

Without baseplate *

With baseplate

n₃

n₄

Hiccup OCP*

Double pin *

Single pin

n₅

n₆

Standard stand-off height *

Increased stand-off height

Warranty

Warranty period and conditions are defined in Ericsson

Power Modules General Terms and Conditions of Sale.

5.30 mm *

3.69 mm

4.57 mm

LB ^note1

Limitation of Liability

Example a through-hole mounted, positive logic, no base plate, short pin

product with increased stand-off height would be

PKM 4111DPIPNBMLB.

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).

* Standard variant (i.e. no option selected).

Note1: LB option only available for NB option.

General Information

Reliability

The failure rate (λ) and mean time between failures (MTBF=

1/λ) is calculated at max output power and an operating

ambient temperature (T_A) of +40°C. Ericsson Power

Modules uses Telcordia SR-332 Issue 2 Method 1 to

calculate the mean steady-state failure rate and standard

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.

deviation (σ).

Telcordia SR-332 Issue 2 also provides techniques to

estimate the upper confidence levels of failure rates based

on the mean and standard deviation.

Mean steady-state failure rate, λ Std. deviation, σ

299 nFailures/h

42.3 nFailures/h

MTBF (mean value) for the PKM4000D series = 3.3 Mh.

Ericsson Internal

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Prepared (also subject responsible if other)

No.

1/1301-BMR 637 010 Uen

Technical Speciﬁcation

Approved

Checked

Date

Rev

Reference

EN/LZT 146 415 R4A Dec 2011

PKM 4000C PINB series Direct Converters

Input 36-75 V, Output up to 100 A / 204 W

SEC/D (Julia You)

2011-12-02

circuit on the input source, this fuse will provide the

following functions:

Safety Specification

• Isolate the fault 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

General information

Ericsson Power Modules DC/DC converters and DC/DC

regulators are designed in accordance with the safety

standards IEC 60950-1, EN 60950-1 and UL 60950-1

Safety of Information Technology Equipment.

The DC/DC converter output is considered as safety extra

low voltage (SELV) if one of the following conditions is met:

IEC/EN/UL 60950-1 contains requirements to prevent injury

or damage due to the following hazards:

• The input source has double or reinforced insulation

from the AC mains according to IEC/EN/UL 60950-1

• The input source has basic or supplementary insulation

from the AC mains and the input of the DC/DC converter

is maximum 60 Vdc and connected to protective earth

according to IEC/EN/UL 60950-1

• The input source has basic or supplementary insulation

from the AC mains and the DC/DC converter output is

connected to protective earth according to

• 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 regulations for the

final product.

IEC/EN/UL 60950-1

Component power supplies for general use should comply

with the requirements in IEC/EN/UL 60950-1 Safety of

Information Technology Equipment. Product related

standards, e.g. IEEE 802.3af Power over Ethernet, and

ETS-300132-2 Power interface at the input to telecom

equipment, operated by direct current (dc) are based on

IEC/EN/UL 60950-1 with regards to safety.

Ericsson Power Modules DC/DC converters and DC/DC

regulators are UL 60950-1 recognized and certified in

accordance with EN 60950-1. The flammability rating for all

construction parts of the products meet requirements for V-0

class material according to IEC 60695-11-10, Fire hazard

testing, test flames – 50 W horizontal and vertical flame test

methods.

Isolated DC/DC converters

Galvanic isolation between input and output is verified in an

electric strength test and the isolation voltage (V_iso) meets

the voltage strength requirement for basic insulation

according to IEC/EN/UL 60950-1.

It is recommended to use a slow blow fuse 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 that imposes a short

Ericsson Internal

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No.

2/1301-BMR 637 030/44 Uen

Technical Speciﬁcation

Approved

Checked

Date

Rev

Reference

EN/LZT 146 415 R4A Dec 2011

PKM 4000C PINB series Direct Converters

Input 36-75 V, Output up to 100 A / 204 W

EQUENXU

2011-12-02

Absolute Maximum Ratings

Characteristics

min

-40

typ

max

Unit

T_P1

T_S

Operating Temperature (see Thermal Consideration section)

Storage temperature

+110

+125

+80

2250

100

+15

°C

-55

V_I

Input voltage

-0.5

V_iso

V_tr

Isolation voltage (input to output test voltage)

Input voltage transient (t_p100 ms)

Vdc

Positive logic option

Negative logic option

-0.5

Remote Control pin voltage

(see Operating Information section)

V_RC

V_adj

Adjust pin voltage (see Operating Information section)

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 stress above these limits, function and performance

may degrade in an unspecified manner.

Fundamental Circuit Diagram

Isolated

Feedback

Primary

Secondary

+ In

+ Out

+ Sense

Vadj

Voltage

Monitoring

Control

- Sense

- In

- Out

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Technical Speciﬁcation

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Checked

Date

Rev

Reference

EN/LZT 146 415 R4A Dec 2011

PKM 4000C PINB series Direct Converters

Input 36-75 V, Output up to 100 A / 204 W

EQUENXU

2011-12-02

1.5V, 100A/150W Electrical Specification

PKM 4218HC PINBHC

T_P1= -40 to +90ºC, V_I= 36 to 75 V, sense pins connected to output pins unless otherwise specified under Conditions.

Typical values given at: T_P1= +25°C, V_I= 53 V_Imax I_O, unless otherwise specified under Conditions.

Additional C_in= 0 µF.See Operating Information section for selection of capacitor types.

Characteristics

Conditions

min

typ

max

Unit

V_I

Input voltage range

V_Ioff

V_Ion

C_I

Turn-off input voltage

Turn-on input voltage

Internal input capacitance

Output power

Decreasing input voltage

Increasing input voltage

6.0

μF

P_O

150

50 % of max I_O

90.7

87.1

91.8

86.9

22.5

2.5

max I_O

Efficiency

50 % of max I_O, V_I= 48 V

max I_O, V_I= 48 V

max I_O

P_d

P_li

P_RC

f_s

Power Dissipation

Input idling power

Input standby power

Switching frequency

I_O= 0 A, V_I= 53 V

V_I= 53 V (turned off with RC)

0-100 % of max I_O

0.14

155

140

170

kHz

Output voltage initial setting and

accuracy

V_Oi

T_P1= +25°C, V_I= 53 V, I_O= 100 A

1.47

1.50

1.53

Output adjust range

Output voltage tolerance band

Idling voltage

See operating information

0-100 % of max I_O

I_O= 0 A

1.35

1.45

1.47

1.65

1.55

1.53

V_O

Line regulation

max I_O

Load regulation

V_I= 53 V, 0-100 % of max I_O

Load transient

voltage deviation

V_tr

t_tr

±300

100

±450

150

µs

V_I= 53 V, Load step 25-75-25 % of

max I_O, di/dt = 5A/μs,see Note 1

Load transient recovery time

Ramp-up time

(from 10−90 % of V_Oi)

t_r

1.5

10-100 % of max I_O

Start-up time

(from V_Iconnection to 90 % of V_Oi)

t_s

t_f

max I_O

0.067

V_Ishut-down fall time

(from V_Ioff to 10 % of V_O)

I_O= 0.2 A

max I_O

RC start-up time

t_RC

max I_O

0.03

RC shut-down fall time

(from RC off to 10 % of V_O)

I_O= 0.2 A

I_O

Output current

100

150

I_lim

I_sc

Current limit threshold

Short circuit current

T_P1< max T_P1

105

125

T_P1= 25ºC, see Note 2

C_out

Recommended Capacitive Load T_P1= 25ºC, see Note 3

10000

280

µF

See ripple & noise section,

V_Oac

Output ripple & noise

max I_O, V_Oi

100

mVp-p

_P1= +25°C, V_I= 53 V, 0-100 % of

OVP

Over voltage protection

1.95

max I_O

Note 1: 10000uF aluminium solid capacitors are connected to the module.

Note 2: Hic-cup mode, the value is in RMS, short circuit load is 5mohm.

Note 3: Aluminium electrolytic capacitors, ESR is lower than 10 mohm.

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Technical Speciﬁcation

Approved

Checked

Date

Rev

Reference

EN/LZT 146 415 R4A Dec 2011

PKM 4000C PINB series Direct Converters

Input 36-75 V, Output up to 100 A / 204 W

EQUENXU

2011-12-02

1.5V, 100A /150W Typical Characteristics

Efficiency

PKM 4218HC PINBHC

Power Dissipation

[W]

[%]

38 V

48 V

53 V

75 V

36 V

48 V

53 V

75 V

10 20 30 40 50 60 70 80 90 100 [A]

Dissipated power vs. load current and input voltage at

T_P1= +25°C

Efficiency vs. load current and input voltage at T_P1= +25°C

Output Characteristics

Current Limit Characteristics

[V]

2.00

[V]

1.60

1.50

1.00

0.50

0.00

1.55

1.50

1.45

1.40

36 V

48 V

53 V

75 V

36 V

48 V

53 V

75 V

10 20 30 40 50 60 70 80 90 100 [A]

90 100 110 120 130 [A]

Output voltage vs. load current at T_P1= +25°C

Output voltage vs. load current at I_O> max I_O, T_P1= +25°C

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Checked

Date

Rev

Reference

EN/LZT 146 415 R4A Dec 2011

PKM 4000C PINB series Direct Converters

Input 36-75 V, Output up to 100 A / 204 W

EQUENXU

2011-12-02

1.5V, 100A /150W Typical Characteristics

Start-up

PKM 4218HC PINBHC

Shut-down

Start-up enabled by connecting V_Iat:

T_P1= +25°C, V_I= 53 V,

Top trace: output voltage (1V/div.).

Bottom trace: input voltage (50 V/div.}).

Time scale: (10 ms/div.).

Shut-down enabled by disconnecting V_Iat:

T_P1= +25°C, V_I= 53 V,

I_O= 100 A resistive load.

Top trace: output voltage (1 V/div.}).

Bottom trace: input voltage (50 V/div.).

Time scale: (0.1 ms/div.).

_O= 100 A resistive load.

Output Ripple & Noise

Output Load Transient Response

Output voltage ripple at:

T_P1= +25°C, V_I= 53 V,

I_O= 100 A resistive load.

Trace: output voltage (50 mV/div.).

Time scale: (2 µs/div.).

Output voltage response to load current step- Top trace: output voltage (200mV/div.).

change (25-75-25 A) at:

T_P1=+25°C, V_I= 53 V.

Bottom trace: load current (50 A/div.).

Time scale: (0.1 ms/div.).

Output Voltage Adjust (see operating information)

Passive adjust

The resistor value for an adjusted output voltage is calculated by

using the following equations:

Output Voltage Adjust Upwards, Increase:

(

100+ Δ%

)

100+ 2×Δ%

⎛

⎞

Radj = 5.11

−

kΩ

⎜

⎟

1.225×Δ%

Δ%

⎝

⎠

Example: Increase 4% =>V_out= 1.56 Vdc

1.5 ×

1.225 × 4

(

100 + 4

)

100 + 2 × 4

⎛

⎞

⎟

Radj = 5.11

−

kΩ = 24 .7kΩ

⎜

⎝

⎠

Output Voltage Adjust downwards, Decrease:

100

⎛

⎝

⎞

⎠

Radj = 5.11

− 2 kΩ

⎜

⎟

Δ%

Example: Decrease 4% =>V_out= 1.44Vdc

100

⎛

⎝

⎞

⎠

Radj = 5.11

− 2 kΩ = 117kΩ

⎜

⎟

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No.

2/1301-BMR 637 030/44 Uen

Technical Speciﬁcation

Approved

Checked

Date

Rev

Reference

EN/LZT 146 415 R4A Dec 2011

PKM 4000C PINB series Direct Converters

Input 36-75 V, Output up to 100 A / 204 W

EQUENXU

2011-12-02

1.5V, 100A /150W Typical Characteristics

Output Current Derating – Open frame

1[A2]0.0

PKM 4218HC PINBHC

100.0

3.0 m/s

80.0

2.0 m/s

60.0

40.0

20.0

0.0

1.5 m/s

1.0 m/s

Nat. Conv.

[°C]

90 100

Available load current vs. ambient air temperature and airflow at

V_I= 53 V. See Thermal Consideration section.

Output Current Derating – Base plate

Thermal Resistance – Base plate

[°C/W]

5.0

[A]

120.0

3.0 m/s

100.0

80.0

60.0

40.0

20.0

4.0

3.0

2.0

1.0

0.0

2.0 m/s

1.5 m/s

1.0 m/s

Nat. Conv.

0.0

0.5

1.0

1.5

2.0

2.5

3.0[m/s]

0.0

20 30 40 50 60 70 80 90 100 [°C]

Available load current vs. ambient air temperature and airflow at

V_I= 53 V. See Thermal Consideration section.

Thermal resistance vs. airspeed measured at the converter. Tested in

wind tunnel with airflow and test conditions as per the Thermal

consideration section. V_I= 53 V. Io=100A

Output Current Derating – Cold wall sealed box

120

100

Tamb 85 C

Tamb 35 C

[°C]

100

Available load current vs. base plate temperature.

V_I= 53 V. See Thermal Consideration section.

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Technical Speciﬁcation

Approved

Checked

Date

Rev

Reference

EN/LZT 146 415 R4A Dec 2011

PKM 4000C PINB series Direct Converters

Input 36-75 V, Output up to 100 A / 204 W

EXUEFYA

2011-11-30

1.8V, 100A/180W Electrical Specification

PKM 4218GC PINBHC

T_P1= -40 to +90ºC, V_I= 36 to 75 V, sense pins connected to output pins unless otherwise specified under Conditions.

Typical values given at: T_P1= +25°C, V_I= 53 V_Imax I_O, unless otherwise specified under Conditions.

Additional C_in=33 µF.See Operating Information section for selection of capacitor types.

Characteristics

Conditions

min

typ

max

Unit

V_I

Input voltage range

V_Ioff

V_Ion

C_I

Turn-off input voltage

Turn-on input voltage

Internal input capacitance

Output power

Decreasing input voltage

Increasing input voltage

6.0

μF

P_O

180

50 % of max I_O

91.5

88.5

91.5

88.0

max I_O

Efficiency

50 % of max I_O, V_I= 48 V

max I_O, V_I= 48 V

max I_O

P_d

P_li

P_RC

f_s

Power Dissipation

Input idling power

Input standby power

Switching frequency

I_O= 0 A, V_I= 53 V

V_I= 53 V (turned off with RC)

0-100 % of max I_O

2.8

0.14

155

140

170

kHz

Output voltage initial setting and

accuracy

V_Oi

T_P1= +25°C, V_I= 53 V, I_O= 100 A

1.76

1.80

1.84

Output adjust range

Output voltage tolerance band

Idling voltage

See operating information

0-100 % of max I_O

I_O= 0 A

1.62

1.75

1.76

1.98

1.85

1.84

V_O

Line regulation

max I_O

Load regulation

V_I= 53 V, 0-100 % of max I_O

Load transient

voltage deviation

V_tr

t_tr

±280

110

±450

350

4.5

µs

V_I= 53 V, Load step 25-75-25 % of

max I_O, di/dt = 3A/μs,see Note 1

Load transient recovery time

Ramp-up time

(from 10−90 % of V_Oi)

t_r

1.5

10-100 % of max I_O

Start-up time

(from V_Iconnection to 90 % of V_Oi)

t_s

t_f

max I_O

0.4

V_Ishut-down fall time

(from V_Ioff to 10 % of V_O)

I_O= 0.2 A

max I_O

RC start-up time

t_RC

max I_O

0.03

RC shut-down fall time

(from RC off to 10 % of V_O)

I_O= 0.2 A

I_O

Output current

100

150

I_lim

I_sc

Current limit threshold

Short circuit current

T_P1< max T_P1

105

125

T_P1= 25ºC, see Note 2

C_out

Recommended Capacitive Load T_P1= 25ºC, see Note 3

10000

240

µF

See ripple & noise section,

V_Oac

Output ripple & noise

max I_O, V_Oi

120

2.5

mVp-p

_P1= +25°C, V_I= 53 V, 0-100 % of

OVP

Over voltage protection

2.2

2.8

max I_O

Note 1: 10000uF aluminium solid capacitors are connected to the module.

Note 2: Hic-cup mode, the value is in RMS, short circuit load is 5mohm.

Note 3: Aluminium electrolytic capacitors, ESR is lower than 10 mohm.

Ericsson Internal

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PRODUCT SPECIFICATION

3 (6)

Prepared (also subject responsible if other)

No.

2/1301-BMR 637 030/64 Uen

Technical Speciﬁcation

Approved

Checked

Date

Rev

Reference

EN/LZT 146 415 R4A Dec 2011

PKM 4000C PINB series Direct Converters

Input 36-75 V, Output up to 100 A / 204 W

EXUEFYA

2011-11-30

1.8V, 100A /180W Typical Characteristics

Efficiency

PKM 4218GC PINBHC

Power Dissipation

[%]

[W]

36 V

48 V

53 V

75 V

36 V

48 V

53 V

75 V

10 20 30 40 50 60 70 80 90 100 [A]

Dissipated power vs. load current and input voltage at

T_P1= +25°C

Efficiency vs. load current and input voltage at T_P1= +25°C

Output Characteristics

Current Limit Characteristics

[V]

2.40

1.90

1.80

1.20

0.60

1.85

1.80

1.75

1.70

36 V

48 V

53 V

75 V

36 V

48 V

53 V

75 V

0.00

50 60 70 80 90 100 110 120 130 140 [A]

10 20 30 40 50 60 70 80 90 100 [A]

Output voltage vs. load current at T_P1= +25°C

Output voltage vs. load current at I_O> max I_O, T_P1= +25°C

Ericsson Internal

EMQTUWX

PRODUCT SPECIFICATION

4 (6)

Prepared (also subject responsible if other)

No.

2/1301-BMR 637 030/64 Uen

Technical Speciﬁcation

Approved

Checked

Date

Rev

Reference

EN/LZT 146 415 R4A Dec 2011

PKM 4000C PINB series Direct Converters

Input 36-75 V, Output up to 100 A / 204 W

EXUEFYA

2011-11-30

1.8V, 100A /180W Typical Characteristics

Start-up

PKM 4218GC PINBHC

Shut-down

Start-up enabled by connecting V_Iat:

T_P1= +25°C, V_I= 53 V,

Top trace: output voltage (1V/div.).

Bottom trace: input voltage (50 V/div.)).

Time scale: (5 ms/div.).

Shut-down enabled by disconnecting V_Iat:

T_P1= +25°C, V_I= 53 V,

I_O= 100 A resistive load.

Top trace: output voltage (1 V/div.)).

Bottom trace: input voltage (50 V/div.).

Time scale: (0.5 ms/div.).

_O= 100 A resistive load.

Output Ripple & Noise

Output Load Transient Response

Output voltage ripple at:

T_P1= +25°C, V_I= 53 V,

I_O= 100 A resistive load.

Trace: output voltage (50 mV/div.).

Time scale: (2 µs/div.).

Output voltage response to load current step- Top trace: output voltage (200 mV/div.).

change (25-75-25 A) at:

T_P1=+25°C, V_I= 53 V.

Bottom trace: load current (50 A/div.).

Time scale: (0.2 ms/div.).

Output Voltage Adjust (see operating information)

Passive adjust

The resistor value for an adjusted output voltage is calculated by

using the following equations:

Output Voltage Adjust Upwards, Increase:

(

100+ Δ%

)

100+ 2×Δ%

⎛

⎞

Radj = 5.11

−

kΩ

⎜

⎟

1.225×Δ%

Δ%

⎝

⎠

Example: Increase 4% =>V_out= 1.872 Vdc

1.8 ×

1.225 × 4

(

100 + 4

)

100 + 2 × 4

⎛

⎝

⎞

⎟

Radj = 5.11

−

kΩ = 57 .3kΩ

⎜

⎠

Output Voltage Adjust downwards, Decrease:

100

⎛

⎝

⎞

⎠

Radj = 5.11

− 2 kΩ

⎜

⎟

Δ%

Example: Decrease 4% =>V_out= 1.728Vdc

100

⎛

⎝

⎞

⎠

Radj = 5.11

− 2 kΩ =117kΩ

⎜

⎟

Ericsson Internal

EMQTUWX

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Prepared (also subject responsible if other)

No.

2/1301-BMR 637 030/64 Uen

Technical Speciﬁcation

Approved

Checked

Date

Rev

Reference

EN/LZT 146 415 R4A Dec 2011

PKM 4000C PINB series Direct Converters

Input 36-75 V, Output up to 100 A / 204 W

EXUEFYA

2011-11-30

1.8V, 100A /180W Typical Characteristics

Output Current Derating – Open frame

PKM 4218GC PINBHC

[A]

120.0

100.0

80.0

60.0

40.0

20.0

0.0

3.0 m/s

2.0 m/s

1.5 m/s

1.0 m/s

Nat. Conv.

[°C]

10 20 30 40 50 60 70 80 90

100

Available load current vs. ambient air temperature and airflow at

V_I= 53 V. See Thermal Consideration section.

Output Current Derating – Base plate

Thermal Resistance – Base plate

[°C/W]

5.0

[A]

120.0

100.0

80.0

60.0

40.0

20.0

3.0 m/s

2.0 m/s

1.5 m/s

1.0 m/s

Nat. Conv.

4.0

3.0

2.0

1.0

0.0

[m/s]

0.0

0.5

1.0

1.5

2.0

2.5

3.0

[°C]

Available load current vs. ambient air temperature and airflow at

V_I= 53 V. See Thermal Consideration section.

Thermal resistance vs. airspeed measured at the converter. Tested in

wind tunnel with airflow and test conditions as per the Thermal

consideration section. V_I= 53 V. Io=100A

Output Current Derating – Cold wall sealed box

[A]

120

100

Tamb 85 C

Tamb 35 C

100 [°C]

Available load current vs. base plate temperature.

V_I= 53 V. See Thermal Consideration section.

Ericsson Internal

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PRODUCT SPECIFICATION

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Prepared (also subject responsible if other)

No.

2/1301-BMR 637 010/14 Uen

Technical Speciﬁcation

Approved

Checked

Date

Rev

Reference

EN/LZT 146 415 R4A Dec 2011

PKM 4000C PINB series Direct Converters

Input 36-75 V, Output up to 100 A / 204 W

SEC/D (Julia You)

EXUEFYA

2009-11-26

3.3V, 50A /165W Electrical Specification

PKM 4110C PINBHC

T_P1= -40 to +90ºC, V_I= 36 to 75 V, sense pins connected to output pins unless otherwise specified under Conditions.

Typical values given at: T_P1= +25°C, V_I= 53 V_Imax I_O, unless otherwise specified under Conditions.

Additional C_in= 0 µF.See Operating Information section for selection of capacitor types.

Characteristics

Conditions

min

typ

max

Unit

V_I

Input voltage range

V_Ioff

V_Ion

C_I

Turn-off input voltage

Turn-on input voltage

Internal input capacitance

Output power

Decreasing input voltage

Increasing input voltage

30.0

32.0

34.0

6.0

33.5

35.5

μF

P_O

165

50 % of max I_O

92.0

90.0

92.1

89.9

18.3

3.1

max I_O

Efficiency

50 % of max I_O, V_I= 48 V

max I_O, V_I= 48 V

max I_O

P_d

P_li

P_RC

f_s

Power Dissipation

Input idling power

Input standby power

Switching frequency

23.2

I_O= 0 A, V_I= 53 V

V_I= 53 V (turned off with RC)

0-100 % of max I_O

0.15

200

180

220

kHz

Output voltage initial setting and

accuracy

V_Oi

T_P1= +25°C, V_I= 53 V, I_O= 50 A

3.24

3.30

3.36

Output adjust range

Output voltage tolerance band

Idling voltage

See operating information

0-100 % of max I_O

I_O= 0 A

2.97

3.23

3.63

3.37

V_O

Line regulation

max I_O

Load regulation

V_I= 53 V, 0-100 % of max I_O

Load transient

voltage deviation

V_I= 53 V, Load step 25-75-25 % of

max I_O, di/dt = 5 A/μs

see Note 1

V_tr

t_tr

±320

±400

100

µs

Load transient recovery time

Ramp-up time

(from 10−90 % of V_Oi)

t_r

10-100 % of max I_O

Start-up time

(from V_Iconnection to 90 % of V_Oi)

t_s

t_f

max I_O

0.08

0.007

V_Ishut-down fall time

(from V_Ioff to 10 % of V_O)

I_O= 0.5 A

max I_O

RC start-up time

t_RC

max I_O

0.07

RC shut-down fall time

(from RC off to 10 % of V_O)

I_O= 0.5 A

0.006

I_O

Output current

I_lim

I_sc

Current limit threshold

Short circuit current

T_P1< max T_P1

T_P1= 25ºC, see Note 2

C_out

Recommended Capacitive Load T_P1= 25ºC, see Note 3

5000

µF

See ripple & noise section,

V_Oac

Output ripple & noise

max I_O, V_Oi

120

4.8

mVp-p

T_P1= +25°C, V_I= 53 V, 0-100 % of

OVP

Over voltage protection

3.6

4.2

max I_O

Note 1: 10 pieces of 470uF aluminium solid capacitors are connected to the module.

Note 2: Hic-cup mode, the value is in RMS, short circuit load is 7m ohm.

Note 3: Aluminium electrolytic capacitors, ESR is lower than 10m ohm.

Ericsson Internal

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Prepared (also subject responsible if other)

No.

2/1301-BMR 637 010/14 Uen

14 10

Technical Speciﬁcation

Approved

Checked

Date

Rev

Reference

EN/LZT 146 415 R4A Dec 2011

PKM 4000C PINB series Direct Converters

Input 36-75 V, Output up to 100 A / 204 W

SEC/D (Julia You)

EXUEFYA

2009-11-26

3.3V, 50A /165W Typical Characteristics

Efficiency

PKM 4110C PINBHC

Power Dissipation

[%]

[W]

36 V

48 V

53 V

75 V

48 V

53 V

75 V

50 [A]

Dissipated power vs. load current and input voltage at

T_P1= +25°C

Efficiency vs. load current and input voltage at T_P1= +25°C

Output Characteristics

Current Limit Characteristics

[V]

3.40

4.00

36 V

48 V

53 V

75 V

3.36

3.32

3.28

3.24

3.20

2.40

1.60

0.80

0.00

36 V

48 V

53 V

75 V

75 [A]

50 [A]

Output voltage vs. load current at T_P1= +25°C

Output voltage vs. load current at I_O> max I_O, T_P1= +25°C

Ericsson Internal

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No.

2/1301-BMR 637 010/14 Uen

15 11

Technical Speciﬁcation

Approved

Checked

Date

Rev

Reference

EN/LZT 146 415 R4A Dec 2011

PKM 4000C PINB series Direct Converters

Input 36-75 V, Output up to 100 A / 204 W

SEC/D (Julia You)

EXUEFYA

2009-11-26

3.3V, 50A /165W Typical Characteristics

Start-up

PKM 4110C PINBHC

Shut-down

Start-up enabled by connecting V_Iat:

T_P1= +25°C, V_I= 53 V,

Top trace: output voltage 1.0 V/div.).

Bottom trace: input voltage (50 V/div.).

Time scale: (5 ms/div.).

Shut-down enabled by disconnecting V_Iat:

T_P1= +25°C, V_I= 53 V,

I_O= 50 A resistive load.

Top trace: output voltage (1.0 V/div.).

Bottom trace: input voltage (50 V/div.).

Time scale: (0.2 ms/div.).

_O= 50 A resistive load.

Output Ripple & Noise

Output Load Transient Response

Output voltage ripple at:

T_P1= +25°C, V_I= 53 V,

I_O= 50 A resistive load.

Trace: output voltage (50 mV/div.).

Time scale: (5 µs/div.).

Output voltage response to load current step- Top trace: output voltage (200 mV/div.).

change (12.5-37.5-12.5 A}) at:

T_P1=+25°C, V_I= 53 V.

Bottom trace: load current (20 A/div.}).

Time scale: (0.2 ms/div.).

Output Voltage Adjust (see operating information)

Passive adjust

The resistor value for an adjusted output voltage is calculated by

using the following equations:

Output Voltage Adjust Upwards, Increase:

⎛ 5.11× 3.3

(

100 + Δ%

1.225× Δ%

)

511

⎞

Radj = ⎜

−

−10.22⎟ kΩ

⎜

⎟

Δ%

⎝

⎠

Example: Increase 4% =>V_out= 3.43 Vdc

⎛ 5.11× 3.3

(

100 + 4

)

511

⎞

⎜

−

−10.22⎟ kΩ = 219.9 kΩ

⎟

1.225× 4

⎝

⎠

Output Voltage Adjust Downwards, Increase:

⎛ 100

Radj = 5.11⎜

⎞

− 2⎟ kΩ

⎜

⎟

Δ%

⎝

⎠

Example: Decrease 2% =>V_out= 3.23 Vdc

kΩ = 404.32 kΩ

⎛100

⎞

5.11⎜

− 2⎟ kΩ = 245.3 kΩ

⎜

⎟

⎝

⎠

Ericsson Internal

EQUENXU

PRODUCT SPECIFICATION

5 (6)

Prepared (also subject responsible if other)

No.

2/1301-BMR 637 010/14 Uen

16 12

Technical Speciﬁcation

Approved

Checked

Date

Rev

Reference

EN/LZT 146 415 R4A Dec 2011

PKM 4000C PINB series Direct Converters

Input 36-75 V, Output up to 100 A / 204 W

SEC/D (Julia You)

EXUEFYA

2009-11-26

3.3V, 50A /165W Typical Characteristics

Output Current Derating – Open frame

PKM 4110C PINBHC

[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.

100 [°C]

Available load current vs. ambient air temperature and airflow at

V_I= 53 V. See Thermal Consideration section.

Output Current Derating – Base plate

Thermal Resistance – Base plate

[°C/W]

[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.

0.0

0.5

1.0

1.5

2.0

2.5

3.0[m/s]

100 [°C]

Available load current vs. ambient air temperature and airflow at

V_I= 53 V. See Thermal Consideration section.

Thermal resistance vs. airspeed measured at the converter. Tested

in wind tunnel with airflow and test conditions as per the Thermal

consideration section. V_I= 53 V.

Output Current Derating – Cold wall sealed box

Tamb 85 C

Tamb 35C

100 [°C]

Available load current vs. base plate temperature.

V_I= 53 V. See Thermal Consideration section.

Ericsson Internal

EQUENXU

PRODUCT SPECIFICATION

2 (6)

Prepared (also subject responsible if other)

No.

2/1301-BMR 637 010/34 Uen

17 13

Technical Speciﬁcation

Approved

Checked

Date

Rev

Reference

EN/LZT 146 415 R4A Dec 2011

PKM 4000C PINB series Direct Converters

Input 36-75 V, Output up to 100 A / 204 W

SEC/D (Julia You)

EXUEFYA

2009-11-26

5.0V, 40A/200W Electrical Specification

PKM 4211C PINBHC

T_P1= -40 to +90ºC, V_I= 36 to 75 V, sense pins connected to output pins unless otherwise specified under Conditions.

Typical values given at: T_P1= +25°C, V_I= 53 V_Imax I_O, unless otherwise specified under Conditions.

Additional C_in= 0 µF.See Operating Information section for selection of capacitor types.

Characteristics

Conditions

min

typ

max

Unit

V_I

Input voltage range

V_Ioff

V_Ion

C_I

Turn-off input voltage

Turn-on input voltage

Internal input capacitance

Output power

Decreasing input voltage

Increasing input voltage

30.0

32.0

34.0

6.0

33.5

35.5

µF

P_O

200

50 % of max I_O

92.3

90.1

92.5

90.0

21.9

3.2

max I_O

Efficiency

50 % of max I_O, V_I= 48 V

max I_O, V_I= 48 V

max I_O

P_d

P_li

P_RC

f_s

Power Dissipation

Input idling power

Input standby power

Switching frequency

28.9

I_O= 0 A, V_I= 53 V

V_I= 53 V (turned off with RC)

0-100 % of max I_O

0.05

200

180

220

kHz

Output voltage initial setting and

accuracy

V_Oi

T_P1= +25°C, V_I= 53 V, I_O= 40 A

4.90

5.00

5.10

Output adjust range

Output voltage tolerance band

Idling voltage

See operating information

0-100 % of max I_O

I_O= 0 A

4.50

4.80

5.50

5.20

V_O

Line regulation

max I_O

Load regulation

V_I= 53 V, 0-100 % of max I_O

Load transient

voltage deviation

V_tr

t_tr

±350

±700

100

µs

V_I= 53 V, Load step 25-75-25 % of

max I_O, di/dt = 5A/µs,see Note 1

Load transient recovery time

Ramp-up time

(from 10−90 % of V_Oi)

t_r

10-100 % of max I_O

Start-up time

(from V_Iconnection to 90 % of V_Oi)

t_s

t_f

max I_O

0.1

0.01

V_Ishut-down fall time

(from V_Ioff to 10 % of V_O)

I_O= 0.4 A

max I_O

RC start-up time

t_RC

max I_O

0.1

RC shut-down fall time

(from RC off to 10 % of V_O)

I_O= 0.4 A

0.01

I_O

Output current

I_lim

I_sc

Current limit threshold

Short circuit current

T_P1< max T_P1

T_P1= 25ºC, see Note 2

C_out

Recommended Capacitive Load T_P1= 25ºC, see Note 3

4000

150

µF

See ripple & noise section,

V_Oac

Output ripple & noise

max I_O, V_Oi

mVp-p

_P1= +25°C, V_I= 53 V, 0-100 % of

OVP

Over voltage protection

6.2

6.8

7.2

max I_O

Note 1: 9 pieces of 470uF aluminium solid capacitors are connected to the module.

Note 2: Hic-cup mode, the value is in RMS, short circuit load is 5mohm.

Note 3: Aluminium electrolytic capacitors, ESR is lower than 10 mohm.

Ericsson Internal

EQUENXU

PRODUCT SPECIFICATION

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Prepared (also subject responsible if other)

No.

2/1301-BMR 637 010/34 Uen

18 14

Technical Speciﬁcation

Approved

Checked

Date

Rev

Reference

EN/LZT 146 415 R4A Dec 2011

PKM 4000C PINB series Direct Converters

Input 36-75 V, Output up to 100 A / 204 W

SEC/D (Julia You)

EXUEFYA

2009-11-26

5.0V, 40A /200W Typical Characteristics

Efficiency

PKM 4211C PINBHC

Power Dissipation

[W]

[%]

36 V

48 V

53 V

75 V

36 V

48 V

53 V

75 V

40 [A]

Dissipated power vs. load current and input voltage at

T_P1= +25°C

Efficiency vs. load current and input voltage at T_P1= +25°C

Output Characteristics

Current Limit Characteristics

[V]

6.0

5.07

36 V

48 V

53 V

75 V

5.0

4.0

3.0

2.0

1.0

0.0

5.05

5.03

5.01

4.99

4.97

36 V

48 V

53 V

75 V

70 [A]

40 [A]

Output voltage vs. load current at T_P1= +25°C

Output voltage vs. load current at I_O> max I_O, T_P1= +25°C

Ericsson Internal

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PRODUCT SPECIFICATION

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Prepared (also subject responsible if other)

No.

2/1301-BMR 637 010/34 Uen

19 15

Technical Speciﬁcation

Approved

Checked

Date

Rev

Reference

EN/LZT 146 415 R4A Dec 2011

PKM 4000C PINB series Direct Converters

Input 36-75 V, Output up to 100 A / 204 W

SEC/D (Julia You)

EXUEFYA

2009-11-26

5.0V, 40A /200W Typical Characteristics

Start-up

PKM 4211C PINBHC

Shut-down

Start-up enabled by connecting V_Iat:

T_P1= +25°C, V_I= 53 V,

Top trace: output voltage (2 V/div.).

Bottom trace: input voltage (50 V/div.}).

Time scale: (5 ms/div.).

Shut-down enabled by disconnecting V_Iat:

T_P1= +25°C, V_I= 53 V,

I_O= 40 A resistive load.

Top trace: output voltage (2 V/div.}).

Bottom trace: input voltage (50 V/div.).

Time scale: (0.1 ms/div.).

_O= 30 A resistive load.

Output Ripple & Noise

Output Load Transient Response

Output voltage ripple at:

T_P1= +25°C, V_I= 53 V,

I_O= 40 A resistive load.

Trace: output voltage (50 mV/div.).

Time scale: (2 µs/div.).

Output voltage response to load current step- Top trace: output voltage (100 mV/div.).

change (10-30-10 A) at:

T_P1=+25°C, V_I= 53 V.

Bottom trace: load current (20 A/div.).

Time scale: (0.1 ms/div.).

Output Voltage Adjust (see operating information)

Passive adjust

The resistor value for an adjusted output voltage is calculated by

using the following equations:

Output Voltage Adjust Upwards, Increase:

⎛ 5.11× 5.0

(

100 + ∆%

1.225× ∆%

)

511

⎞

Radj = ⎜

−

−10.22⎟ kΩ

⎜

⎟

∆%

⎝

⎠

Example: Increase 4% =>V_out= 5.20 Vdc

⎛ 5.11× 5.0

(

100 + 4

1.225× 4

)

511

⎞

⎜

−

−10.22⎟ kΩ = 404.3 kΩ

⎟

⎝

⎠

Output Voltage Adjust Downwards, Increase:

⎛ 100

Radj = 5.11⎜

⎞

− 2⎟ kΩ

⎜

⎟

∆%

⎝

⎠

Example: Decrease 2% =>V_out= 4.90 Vdc

kΩ = 404.32 kΩ

⎛100

⎞

5.11⎜

− 2⎟ kΩ = 245.3 kΩ

⎜

⎟

⎝

⎠

Ericsson Internal

EQUENXU

PRODUCT SPECIFICATION

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Prepared (also subject responsible if other)

No.

2/1301-BMR 637 010/34 Uen

20 16

Technical Speciﬁcation

Approved

Checked

Date

Rev

Reference

EN/LZT 146 415 R4A Dec 2011

PKM 4000C PINB series Direct Converters

Input 36-75 V, Output up to 100 A / 204 W

SEC/D (Julia You)

EXUEFYA

2009-11-26

5.0V, 40A /200W Typical Characteristics

Output Current Derating – Open frame

PKM 4211C PINBHC

3.0 m/s

[A]

2.0 m/s

1.5 m/s

1.0 m/s

0.5 m/s

Nat.

Conv.

100 [°C]

Available load current vs. ambient air temperature and airflow at

V_I= 53 V. See Thermal Consideration section.

Output Current Derating – Base plate

Thermal Resistance – Base plate

[°C/W]

3.0

[A]

3.0 m/s

2.0 m/s

2.5

2.0

1.5

1.0

1.5 m/s

1.0 m/s

0.5 m/s

Nat. Conv.

0.5

0.0

100 [°C]

0.0

0.5

1.0

1.5

2.0

2.5

3.0[m/s]

Available load current vs. ambient air temperature and airflow at

V_I= 53 V. See Thermal Consideration section.

Thermal resistance vs. airspeed measured at the converter. Tested in

wind tunnel with airflow and test conditions as per the Thermal

consideration section. V_I= 53 V.

Output Current Derating – Cold wall sealed box

Tamb 85 C

Tamb 35 C

100 [°C]

Available load current vs. base plate temperature.

V_I= 53 V. See Thermal Consideration section.

Ericsson Internal

EXUEFYA

PRODUCT SPECIFICATION

2 (6)

Prepared (also subject responsible if other)

No.

2/1301-BMR 637 010/5 Uen

21 17

Technical Speciﬁcation

Approved

Checked

Date

Rev

Reference

^{EN/LZT 146 4}R¹⁵2^RA^{4A Dec 2011}

PKM 4000C PINB series Direct Converters

Input 36-75 V, Output up to 100 A / 204 W

SEC/D (Betty Wu)

EQUENXU

2009-11-18

12V, 17A/204W Electrical Specification

PKM 4213C PINBHCSP

T_P1= -40 to +90ºC, V_I= 38 to 75 V, sense pins connected to output pins unless otherwise specified under Conditions.

Typical values given at: T_P1= +25°C, V_I= 53 V_Imax I_O, unless otherwise specified under Conditions.

Additional C_in= 0 µF.See Operating Information section for selection of capacitor types.

Characteristics

Conditions

min

typ

max

Unit

V_I

Input voltage range

V_Ioff

V_Ion

C_I

Turn-off input voltage

Turn-on input voltage

Internal input capacitance

Output power

Decreasing input voltage

Increasing input voltage

6.0

µF

P_O

204

50 % of max I_O

94.3

93.4

94.4

93.3

14.4

2.6

max I_O

Efficiency

50 % of max I_O, V_I= 48 V

max I_O, V_I= 48 V

max I_O

P_d

P_li

P_RC

f_s

Power Dissipation

Input idling power

Input standby power

Switching frequency

18.3

I_O= 0 A, V_I= 53 V

V_I= 53 V (turned off with RC)

0-100 % of max I_O

0.09

200

180

220

kHz

Output voltage initial setting and

accuracy

V_Oi

T_P1= +25°C, V_I= 53 V, I_O= 40 A

11.8

12.2

Output adjust range

Output voltage tolerance band

Idling voltage

See operating information

0-100 % of max I_O

I_O= 0 A

10.8

11.7

11.8

13.2

12.3

12.2

V_O

Line regulation

max I_O

Load regulation

V_I= 53 V, 0-100 % of max I_O

Load transient

voltage deviation

V_tr

t_tr

±300

±450

170

µs

V_I= 53 V, Load step 25-75-25 % of

max I_O, di/dt = 5A/µs,see Note 1

Load transient recovery time

Ramp-up time

(from 10−90 % of V_Oi)

t_r

1.9

10-100 % of max I_O

Start-up time

(from V_Iconnection to 90 % of V_Oi)

t_s

t_f

max I_O

I_O= 0 A

max I_O

0.3

9.5

V_Ishut-down fall time

(from V_Ioff to 10 % of V_O)

RC start-up time

t_RC

max I_O

0.3

RC shut-down fall time

(from RC off to 10 % of V_O)

I_O= 0 A

I_O

Output current

I_lim

I_sc

Current limit threshold

Short circuit current

T_P1< max T_P1

T_P1= 25ºC, see Note 2

C_out

Recommended Capacitive Load T_P1= 25ºC, see Note 3

1700

150

µF

See ripple & noise section,

V_Oac

Output ripple & noise

max I_O, V_Oi

100

mVp-p

_P1= +25°C, V_I= 53 V, 0-100 % of

OVP

Over voltage protection

14.3

max I_O

Note 1: 1700uF aluminium solid capacitors are connected to the module.

Note 2: Hic-cup mode, the value is in RMS, short circuit load is 5mohm.

Note 3: Aluminium electrolytic capacitors, ESR is lower than 10 mohm.

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Technical Speciﬁcation

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Checked

Date

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Reference

^{EN/LZT 146 4}R¹⁵2^RA^{4A Dec 2011}

PKM 4000C PINB series Direct Converters

Input 36-75 V, Output up to 100 A / 204 W

SEC/D (Betty Wu)

EQUENXU

2009-11-18

12V, 17A /204W Typical Characteristics

Efficiency

PKM 4213C PINBHCSP

Power Dissipation

[W]

[%]

38 V

48 V

53 V

75 V

38 V

48 V

53 V

75 V

18 [A]

[A]

Dissipated power vs. load current and input voltage at

T_P1= +25°C

Efficiency vs. load current and input voltage at T_P1= +25°C

Output Characteristics

Current Limit Characteristics

[V]

16.0

12.20

38 V

48 V

53 V

75 V

14.0

12.0

10.0

8.0

12.10

12.00

11.90

11.80

38 V

48 V

53 V

75 V

18 [A]

6.0

27 [A]

Output voltage vs. load current at T_P1= +25°C

Output voltage vs. load current at I_O> max I_O, T_P1= +25°C

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Reference

^{EN/LZT 146 4}R¹⁵2^RA^{4A Dec 2011}

PKM 4000C PINB series Direct Converters

Input 36-75 V, Output up to 100 A / 204 W

SEC/D (Betty Wu)

EQUENXU

2009-11-18

12V, 17A /204W Typical Characteristics

Start-up

PKM 4213C PINBHCSP

Shut-down

Start-up enabled by connecting V_Iat:

T_P1= +25°C, V_I= 53 V,

Top trace: output voltage (5 V/div.).

Bottom trace: input voltage (50 V/div.}).

Time scale: (10 ms/div.).

Shut-down enabled by disconnecting V_Iat:

T_P1= +25°C, V_I= 53 V,

I_O= 17 A resistive load.

Top trace: output voltage (5 V/div.}).

Bottom trace: input voltage (50 V/div.).

Time scale: (0.2 ms/div.).

_O= 17 A resistive load.

Output Ripple & Noise

Output Load Transient Response

Output voltage ripple at:

T_P1= +25°C, V_I= 53 V,

I_O= 17 A resistive load.

Trace: output voltage (20 mV/div.).

Time scale: (2 µs/div.).

Output voltage response to load current step- Top trace: output voltage (1V/div.).

change (4.25-12.75-4.25 A) at:

T_P1=+25°C, V_I= 53 V.

Bottom trace: load current (5 A/div.).

Time scale: (0.2 ms/div.).

Output Voltage Adjust (see operating information)

Passive adjust

The resistor value for an adjusted output voltage is calculated by

using the following equations:

Output Voltage Adjust Upwards, Increase:

5.11×12×

(

100 + ∆%

)

511

⎛

⎜

⎞

⎟

kΩ

Radj =

−

−10.22

1.225× ∆%

∆%

⎝

⎠

Example: Increase 4% =>V_out= 12.48 Vdc

5.11×12×

(

100 + 4

)

511

⎛

⎜

⎞

⎟

kΩ = 1163.5 kΩ

−

−10.22

1.225× 4

⎝

⎠

Output Voltage Adjust Downwards, Increase:

⎛ 100

Radj = 5.11⎜

⎞

− 2⎟ kΩ

⎜

⎟

∆%

⎝

⎠

Example: Decrease 2% =>V_out= 11.76 Vdc

⎛100

5.11⎜

⎞

− 2⎟ kΩ = 245.3 kΩ

⎜

⎟

⎝

⎠

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Reference

^{EN/LZT 146 4}R¹⁵2^RA^{4A Dec 2011}

PKM 4000C PINB series Direct Converters

Input 36-75 V, Output up to 100 A / 204 W

SEC/D (Betty Wu)

EQUENXU

2009-11-18

12V, 17A /204W Typical Characteristics

Output Current Derating – Open frame

PKM 4213C PINBHCSP

[A]

18.0

3.0 m/s

15.0

12.0

9.0

2.0 m/s

1.5 m/s

1.0 m/s

6.0

Nat. Conv.

3.0

0.0

20 30 40 50 60 70 80 90 100 [°C]

Available load current vs. ambient air temperature and airflow at

V_I= 53 V. See Thermal Consideration section.

Output Current Derating – Base plate

Thermal Resistance – Base plate

[A]

18.0

[°C/W]

3.0

3.0 m/s

2.0 m/s

1.5 m/s

1.0 m/s

Nat. Conv.

2.5

2.0

1.5

1.0

0.5

0.0

15.0

12.0

9.0

6.0

3.0

0.0

0.5

1.0

1.5

2.0

2.5

3.0[m/s]

0.0

[°C]

20 30 40 50 60 70 80 90 100

Available load current vs. ambient air temperature and airflow at

V_I= 53 V. See Thermal Consideration section.

Thermal resistance vs. airspeed measured at the converter. Tested in

wind tunnel with airflow and test conditions as per the Thermal

consideration section. V_I= 53 V.

Output Current Derating – Cold wall sealed box

Tamb 85 C

Tamb 35 C

[°C]

100

Available load current vs. base plate temperature.

V_I= 53 V. See Thermal Consideration section.

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Reference

EN/LZT 146 415 R4A Dec 2011

PKM 4000C PINB series Direct Converters

Input 36-75 V, Output up to 100 A / 204 W

SEC/D (Betty Wu)

EQUENXU

2009-11-20

EMC Specification

Conducted EMI measured according to EN55022, CISPR 22

and FCC part 15J (see test set-up). See Design Note 009 for

further information. The fundamental switching frequency is

200 kHz for PKM 4211C PINBHC @ V_I= 53 V, max I_O.

Conducted EMI Input terminal value (typ)

Test set-up

Layout recommendations

The radiated EMI performance of the Product will depend on

the PCB layout and ground layer design. It is also important to

consider the stand-off of the product. If a ground layer is used,

it should be connected to the output of the product and the

equipment ground or chassis.

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.

A ground layer will increase the stray capacitance in the PCB

and improve the high frequency EMC performance.

Output ripple and noise

Filter components:

C1,2,6 = 1 µF

Ceramic

Output ripple and noise measured according to figure below.

See Design Note 022 for detailed information.

C3,4 = 2.2 nF

Ceramic

DC/DC

Load

C5 = 220 µF

Electrolytic

L1,2 = 0.81 mH

common mode

Output ripple and noise test setup

EMI with filter

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Reference

EN/LZT 146 415 R4A Dec 2011

PKM 4000C PINB series Direct Converters

Input 36-75 V, Output up to 100 A / 204 W

SEC/D (Betty Wu)

EQUENXU

2009-11-20

in some applications can be enhanced by addition of external

capacitance as described under External Decoupling

Capacitors.

Operating information

Input Voltage

The input voltage range 36 to 75Vdc meets the requirements

of the European Telecom Standard ETS 300 132-2 for normal

input voltage range in –48 and –60 Vdc systems, -40.5 to -

57.0 V and –50.0 to -72 V respectively.

At input voltages exceeding 75 V, the power loss will be higher

than at normal input voltage and T_P1must be limited to

absolute max +110°C. The absolute maximum continuous

input voltage is 80 Vdc.

If the input voltage source contains significant inductance, the

addition of a 22 - 100 µF capacitor across the input of the

product will ensure stable operation. The capacitor is not

required when powering the product from an input source with

an inductance below 10 µH. The minimum required

capacitance value depends on the output power and the input

voltage. The higher output power the higher input capacitance

is needed. Approximately doubled capacitance value is

required for a 24 V input voltage source compared to a 48V

input voltage source.

Turn-off Input Voltage

The products 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 1V.

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. It is equally important to

use low resistance and low inductance PCB layouts and

cabling.

Remote Control (RC)

The products are fitted with a

remote control function referenced

to the primary negative input

connection (-In), with negative and

positive logic options available.

The RC function allows the product

to be turned on/off by an external

device like a semiconductor or

mechanical switch.

External decoupling capacitors will become part of the

product’s control loop. The control loop is optimized for a wide

range of external capacitance and the maximum

recommended value that could be used without any additional

analysis is found in the Electrical specification.

The ESR of the capacitors is a very important parameter.

Stable operation is guaranteed with a verified ESR value of >5

mΩ across the output connections.

The maximum required sink current is 1 mA. When the RC pin

is left open, the voltage generated on the RC pin is

5.0 – 7.0 V. The standard product is provided with “negative

logic” remote control and will be off until the RC pin is

connected to the -In. To turn on the product the voltage

between RC pin and -In should be less than 1V. To turn off the

converter the RC pin should be left open, or connected to a

voltage higher than 13 V referenced to -In. In situations where

it is desired to have the product to power up automatically

without the need for control signals or a switch, the RC pin can

be wired directly to -In.

For further information please contact your local Ericsson

Power Modules representative.

Output Voltage Adjust (V_adj

)

The products have an Output Voltage Adjust pin (V_adj). This

pin can be used to adjust the output voltage above or below

Output voltage initial setting.

When increasing the output voltage, the voltage at the output

pins (including any remote sense compensation ) must be

kept below the threshold of the over voltage protection, (OVP)

to prevent the product from shutting down. At increased output

voltages the maximum power rating of the product remains the

same, and the max output current must be decreased

correspondingly.

The second option is “positive logic” remote control, which can

be ordered by adding the suffix “P” to the end of the part

number. When the RC pin is left open, the product starts up

automatically when the input voltage is applied. 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 product will restart automatically

when this connection is opened.

To increase the voltage the resistor should be connected

between the V_adjpin and +Sense pin. The resistor value of the

Output voltage adjust function is according to information

given under the Output section for the respective product.

To decrease the output voltage, the resistor should be

connected between the V_adjpin and –Sense pin.

See Design Note 021 for detailed information.

Input and Output Impedance

The impedance of both the input source and the load will

interact with the impedance of the product. It is important that

the input source has low characteristic impedance. The

products are designed for stable operation without external

capacitors connected to the input or output. The performance

Ericsson Internal

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Date

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Reference

EN/LZT 146 415 R4A Dec 2011

PKM 4000C PINB series Direct Converters

Input 36-75 V, Output up to 100 A / 204 W

SEC/D (Betty Wu)

EQUENXU

2009-11-20

During hiccup, the module will try to restart and shutdown

again for the overload. When the overload is removed, the

products will continue to work normally.

Thermal Consideration

General

The products are designed to operate in different thermal

environments and sufficient cooling must be provided to

ensure reliable operation.

For products mounted on a PCB without a heat sink attached,

cooling is achieved mainly by conduction, from the pins to the

host board, and convection, which is dependant on the airflow

across the product. Increased airflow enhances the cooling of

the product. 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

V_I= 53 V.

Parallel Operation

Two products may be paralleled for redundancy if the total

power is equal or less than P_Omax. It is not recommended to

parallel the products without using external current sharing

circuits.

The product 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 608 x 203 mm.

See Design Note 006 for detailed information.

Remote Sense

The products have remote sense that can be used to

compensate for voltage drops between the output and the

point of load. The sense traces should be located close to the

PCB ground layer to reduce noise susceptibility. The remote

sense circuitry will compensate for up to 10% voltage drop

between output pins and the point of load.

If the remote sense is not needed +Sense should be

connected to +Out and -Sense should be connected to -Out.

Over Temperature Protection (OTP)

The products are protected from thermal overload by an

internal over temperature shutdown circuit.

When T_P1as defined in thermal consideration section exceeds

135°C the product will shut down. The product will make

continuous attempts to start up (non-latching mode) and

resume normal operation automatically when the temperature

has dropped >15°C below the temperature threshold.

For products with base plate used in a sealed box/cold wall

application, cooling is achieved mainly by conduction through

the cold wall. The Output Current Derating graphs are found in

the Output section for each module. The product is tested in a

sealed box test set up with ambient temperatures 85 and 35°C.

See Design Note 028 for further details.

Over Voltage Protection (OVP)

The products have output over voltage protection that will shut

down the product in over voltage conditions. The product will

make continuous attempts to start up (non-latching mode) and

resume normal operation automatically after removal of the

over voltage condition.

Over Current Protection (OCP)

The products include current limiting circuitry for protection at

continuous overload. The output voltage will decrease when

the output current in excess of its current limit point, when the

load continue to increase to some higher level, the module will

enter into hiccup mode.

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Date

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Reference

EN/LZT 146 415 R4A Dec 2011

PKM 4000C PINB series Direct Converters

Input 36-75 V, Output up to 100 A / 204 W

SEC/D (Betty Wu)

EQUENXU

2009-11-20

Base plate

Definition of product operating temperature

The product operating temperatures is used to monitor the

temperature of the product, and proper thermal conditions can

be verified by measuring the temperature at positions P1, P2.

The temperature at these positions T_P1, T_P2should not exceed

the maximum temperatures in the table below. The number of

measurement points may vary with different thermal design

and topology. Temperatures above maximum T_P1, measured

at the reference point P1 are not allowed and may cause

permanent damage.

Ambient Temperature Calculation

For products with base plate the maximum allowed ambient

temperature can be calculated by using the thermal resistance.

1. The power loss is calculated by using the formula

((1/η) - 1) × output power = power losses (Pd).

η = efficiency of product. E.g. 89.5% = 0.895

2. Find the thermal resistance (Rth) in the Thermal Resistance

graph found in the Output section for each model. Note that

the thermal resistance can be significantly reduced if a

heat sink is mounted on the top of the base plate.

Position

Description

MOSFET

Max Temp.

T_P1=125º C

Control IC

T_P2=125º C

Calculate the temperature increase (∆T).

∆T = Rth x Pd

3. Max allowed ambient temperature is:

Max T_P1- ∆T.

E.g. PKM 4211C PINBHC at 2m/s:

1. ((

) - 1) × 200 W = 25.22W

0.888

2. 25.22 W × 3.5°C/W = 88.3°C

3. 125 °C – 88.3°C = max ambient temperature is 36.7°C

The actual temperature will be dependent on several factors

such as the PCB size, number of layers and direction of

airflow.

Open frame

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Reference

EN/LZT 146 415 R4A Dec 2011

PKM 4000C PINB series Direct Converters

Input 36-75 V, Output up to 100 A / 204 W

SEC/D (Betty Wu)

EQUENXU

2009-11-20

Connections

Top view

Designation

Function

+In

Positive input

Remote control

Negative input

Negative output

- In

4,10

- Out

- Sen

Vadj

+ Sen

+ Out

Negative remote sense

Output voltage adjust

Positive remote sense

Positive output

8,9

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Date

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Reference

EN/LZT 146 415 R4A Dec 2011

PKM 4000C PINB series Direct Converters

Input 36-75 V, Output up to 100 A / 204 W

SEC/D (Julia You)

See §1

2011-12-07

Mechanical Drawing (Open Frame with Holes)

Ericsson Internal

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Date

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Reference

EN/LZT 146 415 R4A Dec 2011

PKM 4000C PINB series Direct Converters

Input 36-75 V, Output up to 100 A / 204 W

SEC/D (Julia You)

See §1

2011-12-07

Mechanical Drawing (Base Plate Version with Inserts)

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No.

5/1301-BMR63701 Uen

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Approved

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Date

Rev

Reference

EN/LZT 146 415 R4A Dec 2011

PKM 4000C PINB series Direct Converters

Input 36-75 V, Output up to 100 A / 204 W

SEC/D (Julia You)

See §1

2011-12-02

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

The products are delivered in antistatic trays

Tray Specifications

Material

Antistatic PPE

Surface resistance

Bakability

10⁵< Ohm/square < 10¹²

The trays are not bakable

25.4 mm [1.0 inch]

Tray thickness

Box capacity

Tray weight

20 products (1 full tray/box)

100 g empty, 1400 g full tray

Ericsson Internal

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5/1301-BMR63701 Uen

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Approved

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Date

Rev

Reference

EN/LZT 146 415 R4A Dec 2011

PKM 4000C PINB series Direct Converters

Input 36-75 V, Output up to 100 A / 204 W

SEC/D (Julia You)

See §1

2011-12-02

Product Qualification Specification

Characteristics

External visual inspection

IPC-A-610

Temperature range

Number of cycles

Dwell/transfer time

-40 to 100°C

1000

15 min/0-1 min

Change of temperature

(Temperature cycling)

IEC 60068-2-14 Na

Temperature T_A

Duration

-45°C

72 h

Cold (in operation)

Damp heat

IEC 60068-2-1 Ad

IEC 60068-2-67 Cy

IEC 60068-2-2 Bd

Temperature

Humidity

Duration

85°C

85 % RH

1000 hours

Temperature

Duration

125°C

1000 h

Dry heat

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

Water

Glycol ether

55°C

35°C

Immersion in cleaning solvents

IEC 60068-2-45 XA, method 2

Peak acceleration

Duration

100 g

6 ms

Mechanical shock

IEC 60068-2-27 Ea

Operational life test

MIL-STD-202G, method 108A

IEC 60068-2-20 Tb, method 1A

IEC 60068-2-21 Test Ua1

Duration

1000 h

Solder temperature

Duration

270°C

10-13 s

Resistance to soldering heat

Robustness of terminations

Through hole mount products

All leads

Preconditioning

Temperature, SnPb Eutectic

Temperature, Pb-free

150°C dry bake 16 h

215°C

235°C

Solder-ability

IEC 60068-2-58 test Td ¹

Frequency

Spectral density

Duration

10 to 500 Hz

Vibration, broad band random

IEC 60068-2-64 Fh, method 1

0.07 g²/Hz

10 min in each direction

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