AM80A-048L-022F60L - Emerson Network Power - Embedded Power

AMPSS™

Astec Modular Power Supply System

Series Highlights

•High Efficiency - up to 88%

•100°C baseplate/ case operating temperature - no derating

• Fixed Switching Frequency

•Low output ripple and noise

•High Reliability - over 1 million hours MTBF

•Designed to meet all Telecom specifications

AM80A

Performance

Series

DC-DC Converter Module

Technical Reference Manual

AM80A Performance Series

Rev. 06 Mar 03AMPSS® Reference Manual

Contents

Introduction............................................................................................................ 4

Special Features ...................................................................................................... 4

Ordering Information............................................................................................... 5

Safety..................................................................................................................... 5

Electrical Specifications............................................................... 6

Absolute Maximum Ratings – all models ................................................................. 6

Pin Connections - all models ................................................................................... 7

Insulation - all models .............................................................................................. 8

Electrical Specifications for 48V Input Models (AM80A-048L-xxxFyy) .................... 9

Electrical Specifications for 150V Input Models (AM80A-150L-xxxFyy)..................11

Electrical Specifications for 300V Input Models (AM80A-300L-xxxFyy)................. 12

Electrical Specifications for 320V Input Models (AM80A-320L-xxxFyy)................. 14

Functional Description............................................................... 15

Remote Sense (+SENSE, -SENSE) ....................................................................... 15

Enable Control (ENABLE) .................................................................................... 15

Output Voltage Adjustment (V ADJ) ...................................................................... 16

Current Limit Adjustment (C LIM ADJ) ................................................................. 16

Overvoltage Protection Adjustment (OVP ADJ) ..................................................... 16

Power Good/Identification (PG/ID) ....................................................................... 17

Clock Signals (CLK IN, CLK OUT)...................................................................... 17

Current Sharing (C SHARE).................................................................................. 18

Current Monitoring (C MON) ................................................................................ 18

Temperature Monitoring (TEMP MON) ................................................................. 18

Design Considerations ................................................................ 19

Input Bulk Capacitors ........................................................................................... 19

Remote Loads ...................................................................................................... 19

Thermal Data ........................................................................................................ 19

Overtemperature Protection................................................................................... 19

Parallel Connection Considerations ........................................................................ 20

Rev. 06 Mar 03 AMPSS® Reference Manual

Specifications

Output Ripple and Noise....................................................................................... 20

Conducted EMI .................................................................................................... 20

Break Regulation................................................................................................... 20

Input Undervoltage Protection ............................................................................... 21

Application Examples................................................................. 22

AC Input Design ................................................................................................... 22

Parallel Connection Design .................................................................................... 22

Mechanical Information............................................................. 23

Dimensions ........................................................................................................... 23

Recommended PCB Layout .................................................................................. 24

Heatsink Mounting Information.............................................................................. 25

AM80A Performance Series

Rev. 06 Mar 03AMPSS® Reference Manual

AM80A Performance Series DC-DC Converters

Introduction

The single output AM80A is an isolated, single output

DC to DC converter module, providing up to 252W

output with a maximum baseplate operating temperature

of 100°C with no derating. The AM80A features full

safety isolated low voltage secondary side control and

Astec Linear Programming (ALP™) for convenient

adjustment of the module's parameters.

The dual output AM80A provides two outputs, 3.3V

and 5.0V.

Special Features

•High Efficiency - up to 88%

•1MHz fixed switching frequency

•100°C baseplate/ case operating temperature - no

derating

•Low output ripple and noise

•Excellent transient response

•Safety isolated low voltage interface with ALPTM

linear control

•High Reliability - over 1 million hours MTBF

•Wide input voltage range

•Parallelable with accurate current sharing

•Current and temperature monitoring outputs

Rev. 06 Mar 03 AMPSS® Reference Manual

Specifications

Ordering Information

Please contact Astec for information on other output voltages, power ranges and configurations.

Safety UL: UL1950

CSA: CSA C22.2 No.950

VDE: VDE 0805

EN60950

CE: CE Mark

Please contact Astec for information on specific module approvals.

Note: Ensure all modules are used according to the Installation Instructions provided with each module.

Model Number Input

Voltage

Output

Voltage

Output

Current

Output

Power

AM80A-320L-280F09 320V 28V 9A 252W

AM80A-300L-022F60 300V 2.2V 60A 132W

AM80A-300L-033F50 300V 3.3V 50A 165W

AM80A-300L-050F40 300V 5V 40A 200W

AM80A-300L-120F18 300V 12V 18A 216W

AM80A-300L-150F16 300V 15V 16A 240W

AM80A-300L-065F33 300V 6.5V 33A 214.5W

AM80A-300L-240F10 300V 24V 10A 240W

AM80A-300L-280F09 300V 28V 9A 252W

AM80A-150L-065F33 150V 6.5V 33A 214.5W

AM80A-048L-012F60 48V 1.2V 60A 72W

AM80A-048L-022F60 48V 2.2V 60A 132W

AM80A-048L-033F50 48V 3.3V 50A 165W

AM80A-048L-050F40 48V 5V 40A 200W

AM80A-048L-120F18 48V 12V 18A 216W

AM80A-048L-150F16 48V 15V 16A 240W

AM80A-048L-240F10 48V 24V 10A 240W

All modules are designed to meet the following specifications:

ETS300-132-2

ETS300-386-1(1)

EN55022-A(1)

EN55022-B(1)

EN41003

IEC6100-44(1)

IEC6100-45(1)

IEC950

VDE0871-A(1)

VDE0878-A(1)

BTNR2511(5)(1)

(1) Require additional circuitry for full compliance. Please refer to application section of this manual or contact

technical support office for further information.

AM80A Performance Series

Rev. 06 Mar 03AMPSS® Reference Manual

Electrical Specifications

Absolute Maximum Ratings – all models

Exceeding the specified absolute maximum ratings may severely damage the module. These ratings are intended as

guidelines for absolute worst case operating conditions and are not to be interpreted as recommended operating

condition

Notes:

* For 300/320V input :

All isolation barriers on 300V input modules have been designed

and tested to meet 4242VDC as required by IEC950 for reinforced

insulation. The complete module should NOT be subjected to a

3000VAC input-to-output test because this can result in input-

baseplate-output breakdown. AMPSS DC-DC modules are CLASS

I equipment. Power supply systems using AMPSS modules MUST

also be CLASS I equipment. Each AMPSS DC-DC module is fully

tested in factory according to the standards. Therefore power

supply systems need only be subjected to Hi-Pot test for BASIC

insulation which is 1500Vac (AC) input to GROUND.

Secondary Control Pins

+SENSE Vo - 0.5 to Vo + 0.5 VDC

-SENSE -0.5 to 0.5 VDC

TEMP MON -0.5 to 7 VDC

C MON -0.5 to 7 VDC

C SHARE -0.5 to 7 VDC

CLK OUT -50 to 50 VDC

CLK IN -50 to 50 VDC

C LIM ADJ -0.5 to 7 VDC

OVP ADJ -0.5 to 7 VDC

V ADJ -0.5 to 7 VDC

PG/ID 0.5 to V

o + 0.5VDC

ENABLE -0.5 to 20 VDC

Note : Vo = module output voltage

All voltage referenced to negative output

Specifications

Electrical characteristics are guaranteed over the full baseplate/ case temperature range (-20 to 100°C) and for the full

range of input voltage (VI) and for the full load range (0 to IO rated). Except where indicated , +SENSE and -SENSE are

connected to the output terminals at the point of measurement, ENABLE is connected to -SENSE. All other pins are left

floating.

Definitions

VI, VO and IO are actual operating conditions, VInom, VOnom and IOrated are nominal ratings.

General 320V Input 300V Input 150V Input 48V Input

Continuous Input Voltage 400V 400V 200V 72V

Input Surge Voltage (1 sec) 425V 425V 225V 75V (continuous)

Isolation, Input to Output* 2700VDC 2700VDC 2700VDC 2100VDC

Isolation Input to Baseplate* 2121VDC 2121VDC 2121VDC 2100VDC

Isolation, Output to Baseplate* 500VDC 500VDC 500VDC 500VDC

Operating Temperature (Baseplate) /Case -20 to 100°C *

Storage Temperature -40 to 105°C

Operating Relative Humidity (non-condensing) 10% to 95%

Storage Relative Humidity (non-condensing) 95% Max

Altitude (Operating) < 3000m

Altitude (Storage) < 9000m

Lead Temperature (soldering 5 Seconds) 235°C

Rev. 06 Mar 03 AMPSS® Reference Manual

Specifications

Pin Connections - all models

CONTROL PINS

Pin No Pin Name Type Description Recommended Connections

1+SENSE Input Used for remote sense function

to compensate for load bus

resistance

If remote sensing is not required connect to

+OUTPUT pins 21-24 of the module

2TEMP MON Output

Provides a voltage signal

proportional to the internal

absolute temperature of the

module

Analog signal output. Leave unconnected

if not used

3C MON Output Provides a current signal

proportional to the current

being supplied by the module

Analog signal output. Leave unconnected

if not used

4C SHARE Input/Output Allows modules connected in

parallel to accurately share

current

Connect to C SHARE pins of other

modules. Leave unconnected if not used

5CLK OUT Output Provides a 1MHz clock output

for synchronization with other

modules

Capacitor coupled output. Leave

unconnected if not used

6CLK IN Input Accepts a 1MHz clock input for

synchronization with other

modules

Capacitor coupled input. Leave

unconnected if not used

7PG/ID Output

High level output (VPG/ID = VO)

indicates module converter is

running. Can also be used to

identify the nominal output

voltage of the module by

measuring resistance between

PG/ID and +OUTPUT

ID Resistance = [VO(nom)

]KW

Leave unconnected if not use

8C LIM ADJ Input Used to adjust the current limit

set point Internal 1mA current source. Leave

unconnected if not used

9OVP ADJ Input Used to adjust module output

overvoltage threshold Internal 1mA current source. Leave

unconnected if not used

10 V ADJ Input Used to adjust module output

voltage Internal 1mA current source. Leave

unconnected if not used

11 ENABLE Input

Enables or disables the output of

the module Must be connected to -SENSE pin or driven

to <0.7V to enable the output of the module

12 -SENSE

Input/

reference

Used for remote sense function

to compensate for load bus

resistance

If remote sensing is not required connect to

-OUTPUT pins 26-29 of the module

INPUT PINS

Pin No Pin Name Type Description Recommended Connections

31 +INPUT Input Power input - positive A 220µF electrolytic capacitor connected

between the +INPUT and -INPUT pins is

recommended

32 -INPUT Input Power input - negative (return) See + INPUT for recommendations

OUTPUT PINS

Pin No Pin Name Type Description Recommended Connections

21-24 +OUTPUT Output Power output - positive Ensure good electrical connection and

sufficient copper on PCB layouts

26-29 -OUTPUT Output Power output - negative See +OUTPUT for recommendations

AM80A Performance Series

Rev. 06 Mar 03AMPSS® Reference Manual

CONTROL SIGNALS

Control Function Conditions Parameter Min Typ Max Units

TEMP MON - temperature

T MON

sensitivity

9.8

10.2

mV/°C

monitor signal Source impedence

C MON - current monitor

= I

Orated

C MON

0.9

1.1

signal

Measured Range

100

Orated

C SHARE - current share

C SHARE pins of modules in

C SHARE accuracy

±3%

±10

O rated

function parallel connected Max no. of units 10

CLK OUT - clock output

CLK OUT

3.3

5.5

Vp-p

CLK IN open Clock freq. 0.98 11.02 MHz

Max fan out 2

CLK IN - clock input

CLK IN

3.3

5.5

Vp-p

Clock freq 0.9 11.1 MHz

PG/ID power good Converter running :

PG/ID 100

/ Identification function

³ 5%I

Orated

for I

Orated

³ 20A

> 1A for I

Orated

<20A

Converter not running 320V, 300V &

150V Input VPG/ID 0.2 V

Converter not running 48V Input VPG/ID 1.0 V

5V output 5.00 5.1 6.12

Ω

6.5V output

Resistance; PG/ID to

6.66

6.8

7.82

Ω

12V output positive output terminal 11.76 12 13.02

Ω

15V output 14.70 15 16.02

Ω

24V output 23.52 24 25.02

Ω

28V output 26.46 27 28.02

Ω

C LIM ADJ - current limit

C LIM ADJ

= 0.8V

C LIM set point 20

Omax

adjustment

C LIM ADJ

= 4.0V

C LIM set point 100

Omax

C LIM ADJ

= 1V

C LIM current source 0.95 11.05 mA

OVP ADJ

- output

OVP ADJ

= 0V

OVP set point

150

Onom

overvoltage protection

OVP ADJ

>= 1V

OVP set point

110

Onom

adjustment

OVP ADJ

= 1V

OVP ADJ current source

0.95 11.05 mA

V ADJ - voltage adjust

Vadj

= 0V

O78 80 82

Onom

Vadj

= 2V

O118 120 122

Onom

VADJ

= 1V

V ADJ current source 0.95 11.05 mA

ENABLE - module enable Module enabled

ENABLE 00.7 V

Module disabled

ENABLE

VENABLE = 0.7V ENABLE current source 100 150 µA

Notes :

1. OVP trip point must be adjusted to accomodate maximum remote sense compensation

All Models

Rev. 06 Mar 03 AMPSS® Reference Manual

Specifications

Electrical Specifications for 48V Input Models (AM80A-048L-xxxFyy)

TRANSIENT CHARACTERISTICS

Parameter Conditions Min Typ Max Units

Turn-on time VI = 0 to VInom 110 msec

Transient response Step-load excursion

(25% to 75% load change @ AM80A-048L-012F60 36 60 mV

0.1A/µS, recovery to 1% VO)AM80A-048L-022F60 66 110 mV

AM80A-048L-033F50 100 165 mV

AM80A-048L-050F40 150 250 mV

AM80A-048L-120F18 360 600 mV

AM80A-048L-150F16 450 750 mV

AM80A-048L-240F10 720 1200 mV

Step-load response

AM80A-048L-012F60 400 µS

AM80A-048L-022F60 400 µS

AM80A-048L-033F50 400 µS

AM80A-048L-050F40 400 µS

AM80A-048L-120F18 300 µS

AM80A-048L-150F16 250 µS

AM80A-048L-240F10 300 µS

INPUT CHARACTERISTICS

Parameter Conditions Min Typ Max Units

Input voltage 36 48 72 V

Input surge voltage (continuous) 75 V

Input low line power on voltage Module power on 30 35 V

Input low line power off voltage Module shutdown 24 31.5 V

No load input power

= V

Inom

Input capacitance 5µF

Input current Low line, nom VO, max IO

AM80A-048L-012F60 3.3 A

AM80A-048L-022F60 5.3 A

AM80A-048L-033F50 6.2 A

AM80A-048L-050F40 7.0 A

AM80A-048L-120F18 7.5 A

AM80A-048L-150F16 8.3 A

AM80A-048L-240F10 8.2 A

AM80A Performance Series

Rev. 06 Mar 03AMPSS® Reference Manual

Electrical Specifications for 48V Input Models (Cont'd)

OUTPUT CHARACTERISTICS

Parameter Conditions Min Typ Max Units

Nominal (factory set) output voltage AM80A-048L-012F60 1.2 V

AM80A-048L-022F60 2.2 V

AM80A-048L-033F50 3.3 V

AM80A-048L-050F40 5.0 V

AM80A-048L-120F18 12.0 V

AM80A-048L-150F16 15.0 V

AM80A-048L-240F10 24.0 V

Output voltage set point accuracy

= +25°C, V

= V

Inom

, I

= I

Orated

-1

Onom

Remote sense compensation

= V

Imin

0.5

Output voltage adjust

120

Onom

Nominal (factory set) output

overvoltage protection trip point

110 115 120 %VO

Overvoltage protection trim range

110

150

Line regulation

Imin

to V

Imax

; All models

0.2

Onom

except :

AM80A-048L-012F60 10 mV

AM80A-048L-022F60 10 mV

AM80A-048L-033F50 10 mV

Load regulation

Omin

to I

Omax

; All models

0.2

Onom

except :

AM80A-048L-012F60 10 mV

AM80A-048L-022F60 10 mV

AM80A-048L-033F50 10 mV

Noise and ripple 20Mhz bandwidth

AM80A-048L-012F60 50 100 mV

AM80A-048L-022F60 50 100 mV

AM80A-048L-033F50 50 100 mV

AM80A-048L-050F40 50 100 mV

AM80A-048L-120F18 120 240 mV

AM80A-048L-150F16 240 300 mV

AM80A-048L-240F10 240 480 mV

Output current AM80A-048L-012F60 0 60 A

AM80A-048L-022F60 0 60 A

AM80A-048L-033F50 0 50 A

AM80A-048L-050F40 0 40 A

AM80A-048L-120F18 0 18 A

AM80A-048L-150F16 0 16 A

AM80A-048L-240F10 0 10 A

Output current limit

dropped to 90% of V

Onom

105

110

115

Omax

Short circuit current

AM80A-048L-012F60

160

Omax

AM80A-048L-022F60

160

Omax

AM80A-048L-033F50

160

Omax

AM80A-048L-050F40

160

Omax

AM80A-048L-120F18

200

Omax

AM80A-048L-150F16

200

Omax

AM80A-048L-240F10

200

Omax

Temperature coefficient

Per °C Baseplate temperature

0.02

/°C

Overtemperature shutdown All models 105 110 120 °C

Efficiency

= V

Onom

, V

= V

Inom,

= I

Orated

AM80A-048L-012F60 60 64 %

AM80A-048L-022F60 70 72 %

AM80A-048L-033F50 75 80 %

AM80A-048L-050F40 83 84 %

AM80A-048L-120F18 85 87 %

AM80A-048L-150F16 84 87 %

AM80A-048L-240F10 85 88 %

Rev. 06 Mar 03 AMPSS® Reference Manual

Specifications

Electrical Specifications for 150V Input Models (AM80A-150L-xxxFyy)

OUTPUT CHARACTERISTICS

Parameter Conditions Min Typ Max Units

Nominal (factory set) output voltage AM80A-150L-065F33

6.5

Output voltage set point accuracy

= +25°C, V

= V

Inom

, I

= I

Orated

-1

Onom

Remote sense compensation

= V

Imin

0.5

Output voltage adjust

120

Onom

Nominal (factory set) output overvoltage

protection trip point 110 115 120 %VO

Overvoltage protection trim range

110

150

Onom

Line regulation

Imin

to V

Imax

0.2

Onom

Load regulation

0 to I

Omax

0.2

Onom

Noise and ripple

20MHz bandwidth

AM80A-150L-065F33

130

Output current AM80A-150L-065F33

Output current limit

dropped to 90% of V

Onom

105

110

115

Omax

Short circuit current

AM80A-150L-065F33

160

Omax

Temperature coefficient

Per °C Baseplate temperature

0.02

/°C

Overtemperature shutdown

Baseplate temperature

105

110

120

°C

Efficiency

= V

Onom

, V

= V

Inom

, I

= I

Orated

AM80A-150L-065F33

INPUT CHARACTERISTICS

Parameter Conditions Min Typ Max Units

Input voltage 90 150 200 V

Input surge voltage (1 second) 220 V

Input low line power on voltage Module power on 75 88 V

Input low line power off voltage Module shutdown 60 79 V

No load input power

= V

Inom

Input capacitance 1.2 µF

Input current Low line, nom VO, max IO

AM80A-150L-065F33 3A

Input current

Nom line, max V

, max I

AM80A-150L-065F33 2.1 A

TRANSIENT CHARACTERISTICS

Parameter Conditions Min Typ Max Units

Turn-on time VI = 0 to VInom 1 10 msec

Transient response

Step-load excursion

(25% to 75% load change @ AM80A-150L-065F33 195 325 mV

0.1A/µS, recovery to 1% VO) Step-load response 250 µS

AM80A Performance Series

Rev. 06 Mar 03AMPSS® Reference Manual

Electrical Specifications for 300V Input Models (AM80A-300L-xxxFyy)

TRANSIENT CHARACTERISTICS

Parameter Conditions Min Typ Max Units

Turn-on time

= 0 to V

Inom

msec

Transient response -

Step-load excursion

(25% to 75% load change @ AM80A-300L-022F60 66 110 mV

0.1A/µS, recovery to 1% VO) AM80A-300L-033F50 100 165 mV

AM80A-300L-050F40 150 250 mV

AM80A-300L-065F33 195 325 mV

AM80A-300L-120F18 360 600 mV

AM80A-300L-150F16 450 750 mV

AM80A-300L-240F10 720 1200 mV

AM80A-300L-280F09 700 1400 mV

Step load response 250 µsec

INPUT CHARACTERISTICS

Parameter Conditions Min Typ Max Units

Input voltage All models - 180 300 400 V

except :

AM80A-300L-065F33 240 300 400 V

AM80A-300L-280F09 200 300 400 V

Input surge voltage (1 second) 425 V

Input low line power on voltage Module power on 150 175 V

Input low line power off voltage Module shutdown 120 157.5 V

No load input power

= V

Inom

Input capacitance 0.5 µF

Input current

Low line, nom V

, max I

AM80A-300L-022F60 1.1 A

AM80A-300L-033F50 1.3 A

AM80A-300L-050F40 1.4 A

AM80A-300L-065F33 1.5 A

AM80A-300L-120F18 1.5 A

AM80A-300L-150F16 1.6 A

AM80A-300L-240F10 1.6 A

AM80A-300L-280F09

1.6

Rev. 06 Mar 03 AMPSS® Reference Manual

Specifications

Electrical Specifications for 300V Input Models (Cont'd)

OUTPUT CHARACTERISTICS

Parameter Conditions Min Typ Max Units

Nominal (factory set) output voltage AM80A-300L-022F60 2.2 V

AM80A-300L-033F50 3.3 V

AM80A-300L-050F40 5.0 V

AM80A-300L-065F33 6.5 V

AM80A-300L-120F18 12.0 V

AM80A-300L-150F16 15.0 V

AM80A-300L-240F10 24.0 V

AM80A-300L-280F09 28.0 V

Output voltage set point accuracy

= +25°C, V

= V

Inom

, I

= I

Orated

-1

Onom

Remote sense compensation

= V

Imin

0.5

Output voltage adjust

120

Onom

Nominal (factory set) output

overvoltage protection trip point

110 115 120 %VO

Overvoltage protection trim range

110

150

Line regulation

Imin

to V

Imax

; All models

0.2

Onom

except :

AM80A-300L-022F60 10 mV

AM80A-300L-033F50 10 mV

Load regulation

Omin

to I

Omax

; All models

0.2

Onom

except :

AM80A-300L-022F60 10 mV

AM80A-300L-033F50 10 mV

Noise and ripple 20MHz bandwidth

AM80A-300L-022F60 50 100 mV

AM80A-300L-033F50 50 100 mV

AM80A-300L-050F40 50 100 mV

AM80A-300L-065F33 65 130 mV

AM80A-300L-120F18 120 240 mV

AM80A-300L-150F16 240 300 mV

AM80A-300L-240F10 240 480 mV

AM80A-300L-280F09 280 560 mV

Output current AM80A-300L-022F60 0 60 A

AM80A-300L-033F50 0 50 A

AM80A-300L-050F40 0 40 A

AM80A-300L-065F33 0 33 A

AM80A-300L-120F18 0 18 A

AM80A-300L-150F16 0 16 A

AM80A-300L-240F10 0 10 A

AM80A-300L-280F09 0 9 A

Output current limit

dropped to 90% of V

Onom

105

110

115

Omax

Short circuit current

AM80A-300L-022F60

160

Omax

AM80A-300L-033F50

160

Omax

AM80A-300L-050F40

160

Omax

AM80A-300L-065F33

165

Omax

AM80A-300L-120F18

200

Omax

AM80A-300L-150F16

200

Omax

AM80A-300L-240F10

200

Omax

AM80A-300L-280F09

200

Omax

Temperature coefficient

Per °C Baseplate temperature

0.02

/°C

Overtemperature shutdown Baseplate temperature 105 110 120 °C

Efficiency

= V

Onom

, V

= V

Inom

, I

= I

Orated

AM80A-300L-022F60 70 74 %

AM80A-300L-033F50 75 78 %

AM80A-300L-050F40 82 83 %

AM80A-300L-065F33 83 85 %

AM80A-300L-120F18 84 86 %

AM80A-300L-150F16 82 86 %

AM80A-300L-240F10 84 87 %

AM80A-300L-280F09 85 87 %

AM80A Performance Series

Rev. 06 Mar 03AMPSS® Reference Manual

Electrical Specifications for 320V Input Models (AM80A-320L-xxxFyy)

OUTPUT CHARACTERISTICS

Parameter Conditions Min Typ Max Units

Nominal (factory set) output voltage AM80A-320L-280F09

Output voltage set point accuracy

= +25°C, V

= V

Inom

, I

= I

Orated

-1

Onom

Remote sense compensation

= V

Imin

0.5

Output voltage adjust

120

Onom

Nominal (factory set) output

overvoltage protection trip point 110 115 120 %VO

Overvoltage protection trim range

110

150

Onom

Line regulation

Imin

to V

Imax

Load regulation

0 to I

Omax

Noise and ripple

20MHz bandwidth

AM80A-320L-280F09

375

Output current AM80A-320L-280F09

Output current limit

dropped to 90% of V

Onom

105

110

115

Omax

Short circuit current

AM80A-320L-280F09

200

Omax

Temperature coefficient

Per °C Baseplate temperature

0.02

/°C

Overtemperature shutdown

Baseplate temperature

102

105

108

°C

Efficiency

= V

Onom

, V

= V

Inom

, I

= I

Orated

AM80A-320L-280F09

INPUT CHARACTERISTICS

Parameter Conditions Min Typ Max Units

Input voltage 256 320 400 V

Input surge voltage (1 second) 425 V

Input low line power on voltage Module power on 200 230 V

Input low line power off voltage Module shutdown 160 205 V

No load input power

= V

Inom

Input capacitance 0.5 µF

Input current Low line, nom V

, max I

AM80A-320L-280F09 1.2 A

TRANSIENT CHARACTERISTICS

Parameter Conditions Min Typ Max Units

Turn-on time VI = 0 to VInom 110 msec

Transient response

Step-load excursion

(25% to 75% load change @ AM80A-320L-280F09 700 1400 mV

0.1A/µS, recovery to 1% VO) Step-load response 800 µS

Rev. 06 Mar 03 AMPSS® Reference Manual

Specifications

Functional Description

This section explains how to implement the functions

found on the AM80A Performance Series.

Remote Sense (+SENSE, -SENSE)

Connect the +SENSE and -SENSE pins of the AM80A

directly to the load to allow the module to compensate for

the voltage drop across the conductors carrying the load

current. If remote sensing is not required (for example if the

load is close to the module) the sense pins should be

connected directly to the module’s output pins to ensure

accurate regulation.

Note: If the sense leads fail open circuit, the module will

revert to local sense at the output pins. Incorrect

connection of sense leads may damage the module

Enable Control (ENABLE)

The enable pin is a TTL compatible input used to turn

the output of the module on or off. The module output

is enabled when the ENABLE pin is connected to -

SENSE or driven to a logic low of <0.7V (but not

negative).

The output is disabled when the enable pin is open or

driven to a logic high >2V. All monitoring and house-

keeping functions (including clock signals) continue to

operate normally.

AM80A Performance Series

Rev. 06 Mar 03AMPSS® Reference Manual

Output Voltage Adjustment (V ADJ)

The output voltage of the module may be accurately

adjusted by up to ±20% of the nominal factory set output.

Adjustment is carried out using either an external voltage

source (0 to 2V, capable of sinking 1mA) or a resistor (0 to

2K) connected between V ADJ and -SENSE.

Current Limit Adjustment (C LIM

ADJ)

A constant current limiting circuit protects the module

under overload or short circuit conditions.

With the C LIM ADJ pin left unconnected the current

limit is factory set to 115% of the module's rated output,

but may be adjusted across the range from 20% to 100%

using an external voltage source (0.8 to 4V, capable of

sinking 1mA) or a resistor (800R to 4K) connected

between C LIM ADJ and -SENSE.

Overvoltage Protection Adjustment

(OVP ADJ)

An independent overvoltage circuit monitors the module's

output pins and will shut the module down in the event of

an internal or external fault which causes the output

voltage to rise above the preset limit. The module is reset

by removing and re-applying the input power or toggle the

ENABLE OFF/ON.

Rev. 06 Mar 03 AMPSS® Reference Manual

Specifications

Clock Signals (CLK IN, CLK OUT)

The module's internal clock is accurate and stable over its

full operating range and synchronization is not normally

required, but it can reduce noise in paralleled systems.

Clock signals can be wired in series (the CLK OUT pin of

one module to the CLK IN pin of the next etc) in which

case all the modules will be synchronized with the first

module in the chain. Alternatively, an external clock signal

of 5Vpk-pk at 1MHz±10% can be connected to the CLK IN

pins of all the modules.

If the clock input to any module fails, the module will

automatically switch back to its internal clock and will

continue to operate normally. The CLK IN and CLK OUT

signals are AC coupled, so any module can clock another

module regardless of polarity.

The resistance between the PG/ID pin and the +ve output

of the module can be used to determine the output voltage

of the module with no power applied according to the

table:

Output Voltage

(V)

Resistance

ΩΩ

)

1.2 1.2

2.2 2.2

6.5 6.8

3.3 3.3

55.1

12 12

15 15

24 24

28 27

Power Good/Identification (PG/ID)

This pin provides an indication that the module's converters

are working, and can also be used to identify the factory set

output voltage of the module.

The PG/ID pin goes high to the level of the output voltage

(VO) to indicate that the module is operating and delivering

power. The output goes low if the converters stop operating

due to a fault such as an overtemperature or overvoltage

condition. The PG/ID pin will also go low if the module is

disabled via the ENABLE pin or under light load condition

(seespecification).

The overvoltage set point may be adjusted between 10%

and 50% above the output voltage (VO), and automatically

tracks adjustments made to the output voltage using V

ADJ.

OVP ADJ should be used to increase the OVP margin if the

voltage drop between power output pins and remote sense

is more than 0.2V

AM80A Performance Series

Rev. 06 Mar 03AMPSS® Reference Manual

Current Sharing (C SHARE)

To ensure that all modules in a parallel system accurately

share current, the C SHARE pins on each module should

be connected together.

The voltage on the C SHARE pins represents the average

load current per module. Each module compares this

average with its own current and adjusts its output voltage

to correct the error. In this way the module maintains

accurate current sharing.

Note: The -SENSE and +SENSE pins of each module must

also be connected together to ensure accurate current

sharing.

Current Monitoring (C MON)

The C MON pin provides an indication of the amount of

current supplied by the module. The output of the C MON

pin is a current source proportional to the

Temperature Monitoring (TEMP

MON)

The TEMP MON pin provides an indication of the

module's internal temperature.The voltage at the TEMP

MON pin is proportional to the temperature of the module

baseplate at 10mV per °C, where:

Module temperature (°C) = (VTEMP MON x 100) - 273

The temperature monitor signal can be used by thermal

management systems (e.g. to control a variable speed fan).

It can also be used for overtemperature warning circuits

and for thermal design verification of prototype power

supplies and heatsinks.

output current of the module, where 0.2 to 1mA = 20 to 100%

IO rated.

The C MON output can be paralleled with C MON outputs

from other modules to indicate the total current supplied in a

paralleled system.

Rev. 06 Mar 03 AMPSS® Reference Manual

Specifications

Design Considerations

Input Bulk Capacitors

Electrolytic bulk reservoir capacitors placed close to the

module input pins are recommended to ensure the module

is fed with a low source impedance. For the AM80A

Performance Series module typical values are 220µF/100V

for 48V modules and 220µF/450V for 300/320V modules.

Input Fusing

AMPSS modules do not have an in-line fuse fitted

internally. In order to comply with CSA, VDE and UL

safety regulations it is recommended that a fuse of the

following rating be fitted at the module's input.

Remote Loads

If the sensed load is some distance from the module, the

module's output voltage may rise sufficiently to trigger the

OVP protection circuit during a step load change due to

bus inductance. For this reason the OVP margin should be

increased in extreme cases. Fitting a decoupling capacitor

at the load can reduce this effect.

It should be noted that a distributed power solution, using

AMPSSTM modules placed close to their loads, will

optimize transient response.

Thermal Data

Natural convection thermal impedance of the AM80A

package without a heatsink is approximately 4°C/W.

The below characteristic is for a standard horizontal fin

heatsink available from Astec (part number APA501-80-

002) with 11mm fins and 8mm pitch. The heatsink will

reduce module thermal impedance to 1°C /W with a forced

air flow of 250 LFM when mounted with a thermal pad

(ASTEC P/N APA502-80-001) between heatsink and

module.

Overtemperature Protection

If the module's baseplate temperature exceeds 110°C, the

module will latch OFF. To reset the module the input

supply or the enable pin of the module must be cycled off

and then on again, allowing a period of time for the module

to cool down.

Overtemperature shutdown can also be programmed to

occur at lower temperatures by using the TEMP MON

output to control the ENABLE pin.

0.2

0.4

0.6

0.8

1.2

0200 400 600 800 1000

Vair (LFM)

Thermal Resistance Baseplate to

Ambient (°C/W)

Forced Convection for APA501-80-002

at 200W Output

Input Fuse Rating

300V/320V 10A / 250V

150V 10A / 250V

48V 10A / 250V

AM80A Performance Series

Rev. 06 Mar 03AMPSS® Reference Manual

Parallel Connection Considerations

A master-slave configuration is not required for AMPSSTM

modules. AM80A modules may be connected in parallel

using a simple, single wire connection.

Current Sharing

In multi-module paralleled systems, all modules will share

current to within ± 3% (typical) of the rated

load current per module when the C SHARE pins of each

module are connected together.

The +SENSE and -SENSE pins of each module should be

connected to common points as close as possible to the

load.

Synchronization

Modules are synchronized by connecting the CLK OUT

pin of one module to the CLK IN pin of the next. Consecu-

tively connected modules operate out of phase with each

other, resulting in ripple cancellation at the inputs and

outputs of paralleled modules. If the clock input to a

module fails, it will automatically revert to its internal clock

and continue to operate normally.

Conducted EMI

Although AMPSS modules contain both common mode

and differential mode input EMI filtering, power supply

systems using these modules will require additional EMI

filtering to enable the system to meet relevant EMI

standards.

AM80A modules have an effective input to ground

(baseplate) capacitance of 700pF for 300V input models

and 580pF for 48V input models. This should be

accounted for when calculating the maximum EMI ‘Y’

capacitance to meet ground leakage current specifications.

Break Regulation

AM80A Performance Series modules are designed to

deliver full rated output current at up to 0.5V above VO nom

at the minimum specified input voltage.

Output Ripple and Noise

AM80A Performance Series modules are designed to

generate very low ripple and noise. When mounted on

logic boards, for example, sufficient decoupling is normally

provided by the components used to decouple the logic

ICs, and no additional decoupling is required.

Rev. 06 Mar 03 AMPSS® Reference Manual

Specifications

Input Undervoltage Protection

An input undervoltage protection circuit protects the

module under low input voltage conditions. Hysteresis is

built into the AM80A Performance Series module to allow

for high levels of ripple on the input supply voltage

without causing the module to cycle on and off. Typically

320V modules will turn on when the input exceeds 220V

and turn off below 180V. 300V modules will turn on when

the input exceeds 160V and turn off below 140V. 48V

modules will turn on above 33V and turn off below 28V

(see Electrical Specifications for exact figures).

AM80A Performance Series

Rev. 06 Mar 03AMPSS® Reference Manual

Application Examples

AC Input Design

Parallel Connection Design

Rev. 06 Mar 03 AMPSS® Reference Manual

Specifications

Mechanical Information

Dimensions

The dimensions are given in mm (inches). Note that the

baseplate must be connected to protective earth before

power is supplied to the module.

Control pins are tin plated phospher-bronze.

Input and output pins are tin plated copper.

The AM80A Performance Series module may be mounted

to a board either by soldering or by using spring sockets.

Materials :

Recommended PCB Layout

Heatsink Mounting Information

Heatsinks for AMPSSTM modules are available in a variety

of sizes and fin orientation. Mounting kits and thermal pads

are also available. The table below shows the options

available for AM80A Performance Series.

A heatsink mounting kit provides the most convenient way

to mount the heatsink to the module and then mount the

assembly onto a circuit board

Description Model Number Dimensions Free air thermal

inches mm resistance

Heatsink, "80" size, vertical fin. APA501-80-001 4.53x2.32x0.6 115x59x15 2.7°C/W

Heatsink, "80" size, horizontal fin APA501-80-002 4.53x2.32x0.6 115x59x15 2.4°C/W

Heatsink, "80" size, vertical fin. APA501-80-003 4.53x2.32x0.9 115x59x22.5 2.2°C/W

Heatsink, "80" size, horizontal fin APA501-80-004 4.53x2.32x0.9 115x59x22.5 2.0°C/W

Heatsink, "80" size, vertical fin. APA501-80-005 4.53x2.32x1.5 115x59x37 2.0°C/W

Heatsink, "80" size, horizontal fin APA501-80-006 4.53x2.32x1.5 115x59x37 1.7°C/W

Heatsink, "80" size, low profile APA501-80-007 4.55x3.50x0.5 115.6x89x12 2.2°C/W

Thermal Pad, "80" size APA502-80-001

Mounting Kit, Tapped Studs APA503-00-001

Mounting Kit, Solder Studs APA503-00-002

Mounting Kit, Tapped Studs APA503-00-007

for low profile heatsink

Mounting Kit, Solder Studs APA503-00-008

for low profile heatsink

Spring Sockets (20 cont. 15pwr) APA504-00-001

To provide optimal thermal contact between heatsink and module, it is recommended that the mating surface of the

heatsink should have a surface flatness of no greater than 0.1mm. The use of a thermal pad or thermal grease is also

recommended.

AMPSSTM modules may be retained by their in put and

output pins only, or may be fixed to the board th cases the

studs provide clearance between the module and the circuit

board to facilitate PCB cleaning operations.

Note: 1) Baseplate and heatsink must be connected to protective earth.

2) Mechanical support must not induce twist in the module baseplate and must incorporate strain relief,

e.g. spring washers.

The recommended torque of using AMPSS mounting kit for module/heatsink is:

Torque sequence:

It is assumed that all four mounting screws are being torqued to a common surface.

Other thermal management schemes are at customer discretion as long as the maximum thermal rating of the specific

module is not exceeded.

Screw size Torque

M3 4-6kg-cm (3.5-5.2 lb-in)

M3.5 6-8kg-cm (5.2-6.9 lb-in)

EUROPE

ASTEC EUROPE LTD.

Astec House, Unit 9,

Waterfront Business Park,

Merry Hill, Dudley

DY5 1LX

U.K.

Tel : 01384-842211

Fax : 01384-843355

NORTH AMERICA

ASTEC AMERICA, INC,.

5810 Van Allen Way,

Carlsbad CA 92008,

USA.

Tel : 760-930-4600

Fax : 760-930-0698

For further information contact :

ASIA

ASTEC AGENCIES LIMITED

Unit 2111-2116, Level 21

223, Hing Fong Raod

Kwai Fong

N.T.

Hong Kong

Tel : 852 2437-9662

Fax : 852 2402-4426

APA701-AM80 Rev. 06 Mar03