Rockwell Automation 1606-XLP60BQT User Manual

Reference Manual

Bulletin 1606 Switched Mode Power Supplies

Catalog Number: 1606-XLP60BQT

Index

1.

Intended Use .......................................................3

2. Installation Requirements ...................................3

3. AC-Input ...............................................................4

4. Input Inrush Current ...........................................5

5. Output .................................................................6

6. Hold-up Time .......................................................7

7. DC-Input ...............................................................7

8. Efciency and Power Losses ................................8

9. Functional Diagram .............................................9

10. Front Side and User Elements .............................9

11. Terminals and Wiring ........................................10

12. Lifetime Expectancy and MTBF .........................10

13. EMC ....................................................................11

14. Environment ......................................................12

15. Protection Features ...........................................13

16. Safety Features ..................................................13

17. Dielectric Strength ............................................14

18. Certications .....................................................15

19. Physical Dimensions and Weight......................16

20. Application Notes ............................................. 18

20.1. Peak Current Capability ...........................18

20.2. Back-feeding Loads ..................................18

20.3. Charging of Batteries ............................... 19

20.4. External Input Protection ......................... 19

20.5. Parallel Use to Increase Output Power ....19

20.6. Daisy Chaining of Outputs ....................... 20

20.7. Inductive and Capacitive Loads ................20

20.8. Series Operation .......................................21

20.9. Operation on Two Phases ........................21

20.10. Use Without PE on the Input ................... 21

20.11. Use at Low Temperatures (-25°C / -40°C) .22

20.12. Use in a Tightly Sealed Enclosure ............22

20.13. Mounting Orientations ............................23

egaP egaP

Terminology and Abbreviations

•PE and symbol—PE is the abbreviation for Protective Earth and has the same meaning as the symbol .

•Earth, Ground—This document uses the term “earth” which is the same as the U.S. term “ground”.

• T.b.d.—To be defined, value or description will follow later.

• AC 230V—A figure displayed with the AC or DC before the value represents a nominal voltage with standard tolerances (usually ±15%)

included. E.g.: DC 12V describes a 12V battery whether it is full (13.7V) or flat (10V)

• 230Vac—A figure with the unit (Vac) at the end is a momentary figure without any additional tolerance included.

• 50Hz vs. 60Hz—As long as not otherwise stated, AC 230V parameters are valid at 50Hz mains frequency.

•may—A key word indicating flexibility of choice with no implied preference.

•shall—A key word indicating a mandatory requirement.

•should—A key word indicating flexibility of choice with a strongly preferred implementation.

Bulletin 1606 Switched Mode Power Supplies

Power Supply

100-240V Wide Range Input
NEC Class 2 Compliant
Adjustable Output Voltage
Efciency up to 87.6%
Low No-load Losses and Excellent Partial-load Efciency
Compact Design, Width only 45mm
Electronic Inrush Current Limitation
Operation down to -40°C
Full Output Power up to +60°C
Large International Approval Package

3 Year Warranty

Description

Compact size, light weight, simple installation on the
DIN rail and the integration of the highest quality
components are the factors that make our power
supplies so easy to deploy and use within seconds.

A rugged electrical and mechanical design as well as a
high immunity against electrical disturbances on the
mains provide reliable output power. This power supply
offers superior protection for equipment connected to
the public mains network or exposed to a critical
industrial environment.

and a power rating from 15W to 120W.
The 1606-XLP60BQT is specially designed for electronic

inrush current limitation and is suitable for very low
ambient temperatures.
The unit is fully specied down to -40°C.

Optionally, you may use a supplementary decoupling diode
module to build redundant systems or to protect your
installation against back-feeding voltages.

Specication Quick Reference

Output voltage DC 12V
Adjustment range 12 - 15V
Output current 4.5A at 12V

3.6A at 15V
Output power 54W
Output ripple < 50mVpp 20Hz to 20MHz
Input voltage AC 100-240V -15% / +10%

AC 100V mains

requires derating
Mains frequency 50-60Hz ±6%
AC Input current 0.97 / 0.61A at 120 / 230Vac
Power factor 0.54 / 0.44 at 120 / 230Vac
AC Inrush current typ. 6A input voltage

and temperature

independent
DC Input 88-375Vdc below 130Vdc

derating required
Efciency 85.8 / 87.6% at 120 / 230Vac
Losses 8.9 / 7.6W at 120 / 230Vac
Temperature range -40°C to +70°C operational
Derating 1.4W/°C +60 to +70°C
Hold-up time typ. 25 / 113ms at 120 / 230Vac
Dimensions 45x75x91mm WxHxD
Weight 250g / 0.55lb

Catalog Numbers

Power Supply 1606-XLP60BQT 12-15V Standard unit

Certication Marks

Ind. Cont. Eq. UL 508

UL 60950-1

Marine

NEC

Class 2

EMC, LVD, RoHS

The XLP family offers output voltages from 5 to 56Vdc

Marine RINA

GOST R

C-Tick

2 Rockwell Automation Publication 1606-RM016A-EN-P — February 2014

All parameters are specified at 12V, 4.5A, 230Vac input, 25°C ambient and after a 5 minutes run-in time unless noted otherwise.

Bulletin 1606 Switched Mode Power Supplies

1. Intended Use

• This device is designed for installation in an enclosure and is intended for the general professional use such as in industrial control, office,
communication, and instrumentation equipment.

• Do not use this power supply in aircraft, trains, nuclear equipment or similar systems where malfunction may cause severe personal injury or
threaten human life.

• This device is designed for use in non-hazardous, ordinary or unclassified locations.

2. Installation Requirements

• This device may only be installed and put into operation by qualified personnel.

• This device does not contain serviceable parts. The tripping of an internal fuse is caused by an internal defect.

• If damage or malfunction should occur during installation or operation, immediately turn power off and send unit to the factory for inspection.

• Mount the unit on a DIN rail so that the output terminals are located on top and the input terminal on the bottom of the unit. For other

mounting orientations, refer to the derating requirements in this document.

• This device is designed for convection cooling and does not require an external fan. Do not obstruct airflow and do not cover ventilation grid
(e.g. cable conduits) by more than 30%!

• Keep the following installation clearances: 40mm on top, 20mm on the bottom, 0mm on the left and right sides. Increase this clearance to
15mm in case the adjacent device is a heat source (e.g. another power supply).

SHOCK HAZARD: Do not use the power supply without proper grounding (Protective Earth). Use the terminal on the input

block for earth connection and not one of the screws on the housing.

- Turn power off before working on the device. Protect against inadvertent re-powering

- Make sure that the wiring is correct by following all local and national codes

- Do not modify or repair the unit

- Do not open the unit as high voltages are present inside

- Use caution to prevent any foreign objects from entering the housing

- Do not use in wet locations or in areas where moisture or condensation can be expected

- Do not touch during power-on, and immediately after power-off. Hot surfaces may cause burns.

WARNING: EXPLOSION HAZARDS!

Substitution of components may impair suitability for this environment. Do not disconnect the unit or operate the voltage adjustment or S/P jumper unless
power has been switched off or the area is known to be non-hazardous.

All parameters are specified at 12V, 4.5A, 230Vac input, 25°C ambient and after a 5 minutes run-in time unless noted otherwise.

Rockwell Automation Publication 1606-RM016A-EN-P — February 2014 3

Bulletin 1606 Switched Mode Power Supplies

3. AC-Input

AC input nom. AC 100-240V -15% / +10%, TN/TT/IT-mains
AC input range

85-264Vac continuous operation,

see Fig. 3-5 for de-rating requirements for AC 100V

mains.
264–300Vac < 0.5s
Allowed voltage L or N to earth max. 264Vac or 375Vdc
Input frequency nom. 50–60Hz ±6%
Turn-on voltage typ. 75Vac steady-state value, see Fig. 3-1
Shut-down voltage typ. 65Vac steady-state value, see Fig. 3-1

AC 100V AC 120V AC 230V
Input current (rms) typ. 1.15A 0.97A 0.61A at 12V, 4.5A see Fig. 3-5
Power factor *) typ. 0.56 0.54 0.44 at 12V, 4.5A see Fig. 3-4
Crest factor **) typ. 3.4 3.7 4.0 at 12V, 4.5A
Start-up delay typ. 170ms 120ms 100ms see Fig. 3-2
Rise time typ. 40ms 40ms 50ms at 12V, 4.5A, 0mF, see Fig. 3-2
100ms 100ms 110ms at 12V, 4.5A, 4.5mF
Turn-on overshoot max. 200mV 200mV 200mV see Fig. 3-2

*) The power factor is the ratio of the true (or real) power to the apparent power in an AC circuit.
**) The crest factor is the mathematical ratio of the peak value to RMS value of the input current waveform.

Fig. 3-1 Input voltage range Fig. 3-2 Turn-on behavior, denitions

Turn-on

85V

Rated

input range

max.

500ms

V

IN

V

OUT

65V 300Vac264V

Shut-down

75V

Start-up

delay

Rise

Time

Overshoot

- 5%

Output
Voltage

Input
Voltage

Fig. 3-3 Input current vs. output load at 12V Fig. 3-4 Power factor vs. output load at 12V

4.5A

130

0

0.4

1.2A

Input Current, typ.

4

0.8

2

1.0

0.6

0.2

b

c

a

0.5 1.5 2.5 3.5

a) 100Vac
b) 120Vac
c) 230Vac

Output Current

4.5A

012 4

0.35

0.40

0.45

0.50

0.55

0.60

Power Factor, typ.

b

c

a

3

a) 100Vac
b) 120Vac
c) 230Vac

Output Current

0.5 1.5 2.5 3.5

4 Rockwell Automation Publication 1606-RM016A-EN-P — February 2014

All parameters are specified at 12V, 4.5A, 230Vac input, 25°C ambient and after a 5 minutes run-in time unless noted otherwise.

Fig. 3-5 De-rating requirements for

low input voltages

0
85Vac

10

20

30

40

50

60W

Input Voltage

A

.

.

.

<

+

4

5

°

C

B

.

.

.

<

+

6

0

°

C

A

B

90Vac 108Vac

Allowable
Output Power

4. Input Inrush Current

An electronic inrush current circuit limits the input inrush current after turn-on of the input voltage. The inrush current
is input voltage and ambient temperature independent.

The charging current into EMI suppression capacitors is disregarded in the rst microseconds after switch-on.

AC 100V AC 120V AC 230V

Inrush current max. 8A

peak

8A

peak

8A

peak

between -40°C and +70°C

typ. 6A

peak

6A

peak

6A

peak

between -40°C and +70°C

Inrush energy max. 0.2A

2

s 0.2A2s 0.3A2s between -40°C and +70°C

Fig. 4-1 Input inrush current, typical behavior

Input Voltage

Input Current

Output Voltage

Input: 230Vac
Output: 12V, 4.5A
Ambient: 25°C

Upper curve: Input current 2A/DIV
Middle curve: Input voltage 200V/DIV
Lower curve: Output voltage 2.5V/DIV
Time basis: 20ms / DIV

Bulletin 1606 Switched Mode Power Supplies

All parameters are specified at 12V, 4.5A, 230Vac input, 25°C ambient and after a 5 minutes run-in time unless noted otherwise.

Rockwell Automation Publication 1606-RM016A-EN-P — February 2014 5

Bulletin 1606 Switched Mode Power Supplies

5. Output

Output voltage nom. 12V
Adjustment range min. 12-15V guaranteed
max. 16.2V *) at clockwise end position of potentiometer *)
Factory setting 12.0V ±0.2%, at full load, cold unit
Line regulation max. 10mV 85-264Vac
Load regulation max. 100mV static value, 0A 4.5A
Ripple and noise voltage max. 50mVpp 20Hz to 20MHz, 50Ohm
Output capacitance typ. 3 000μF
Output current nom. 4.5A at 12V, see Fig. 5-1
nom. 3.6A at 15V, see Fig. 5-1
Output power nom. 54W
Short-circuit current min. 6.0A load impedance 250mOhm, see Fig. 5-1
max. 8.0A load impedance 250mOhm, see Fig. 5-1

*) This is the maximum output voltage which can occur at the clockwise end position of the potentiometer due to tolerances. There is no

guarantee that this value will be achieved. The typical value is about 15.8V.

Fig. 5-1 Output voltage vs. output current,

typ.

Output Voltage

0

0

2

4

6

16V

8

12

14

9A3 54

10

678

Adjustment

Range

Output Current

a) 100Vac
b) 120Vac
c) 230Vac

a

b

c

Peak current capability (up to several milliseconds)

The power supply can deliver a peak current which is higher than the specied short term current. This helps to start
current demanding loads or to safely operate subsequent circuit breakers.

The extra current is supplied by the output capacitors inside the power supply. During this event, the capacitors will be
discharged and causes a voltage dip on the output. Detailed curves can be found in section 20.1.

Peak current voltage dips typ. from 12V to 7V at 9A for 50ms, resistive load
typ. from 12V to 5V at 22.5A for 2ms, resistive load
typ. from 12V to 3.2V at 22.5A for 5ms, resistive load

1

2

6 Rockwell Automation Publication 1606-RM016A-EN-P — February 2014

All parameters are specified at 12V, 4.5A, 230Vac input, 25°C ambient and after a 5 minutes run-in time unless noted otherwise.

Bulletin 1606 Switched Mode Power Supplies

6. Hold-up Time

AC 100V AC 120V AC 230V
Hold-up Time typ. 37ms 56ms 229ms at 12V, 2.25A, see Fig. 6-1
typ. 16ms 25ms 113ms at 12V, 4.5A, see Fig. 6-1

Note: At no load, the hold-up time can be up to several seconds. The green DC-ok lamp is also on at this time.

Fig. 6-1 Hold-up time vs. input voltage Fig. 6-2 Shut-down behavior, denitions

0

20

40

100

120ms

85 120 155 190 230Vac

Input Voltage

Hold-up Time

60

80

a) 12V 2.25A typ.
b) 12V 2.25Amin.
c) 12V 4.5A typ.
d) 12V 4.5A min.

a b c

d

- 5%

Hold-up Time

Zero Transition

Output
Voltage

Input
Voltage

7. DC-Input

The power supply can also be supplied from a DC source. Use a battery or similar DC source. For other sources, contact
RA. Connect the + pole to L and the – pole to N. Connect the PE terminal to an earth wire or to the machine ground.

DC input nom. DC 110-300V -20%/+25%
DC input range min. 88-375Vdc continuous operation, reduce output power according

Fig. 7-2 at voltages below 130Vdc
Allowed Voltage L/N to Earth max. 375Vdc IEC 62103
DC input current typ. 0.57A / 0.2A 110Vdc / 300Vdc, at 12V, 4.5A
Turn-on voltage typ. 90Vdc steady state value
Shut-down voltage typ. 57Vdc similar behavior as shown in Fig. 3-1

Fig. 7-1 Wiring for DC Input

Fig. 7-2 Allowable output current below

110Vdc input voltage

+

-

Load

L

N

PE

+

-

Power Supply

AC

DC

Battery

internal

fused

0

10

20

30

40

60W

80 90 100 110 130Vdc

Input Voltage Vdc

Output Power

50

120

(

b

)

(

a

)

(a) Continuous
(b) Short-term

All parameters are specified at 12V, 4.5A, 230Vac input, 25°C ambient and after a 5 minutes run-in time unless noted otherwise.

Rockwell Automation Publication 1606-RM016A-EN-P — February 2014 7

Bulletin 1606 Switched Mode Power Supplies

A

A

8. Efciency and Power Losses

AC 100V AC 120V AC 230V
Efciency typ. 84.1% 85.8% 87.6% at 12V, 4.5A (full load)
Power losses typ. 0.45W 0.5W 0.85W at 0A
typ. 4.1W 3.9W 4.1W at 12V, 2.25A (half load)
typ. 10.2W 8.9W 7.6W at 12V, 4.5A (full load)

Fig. 8-1 Efciency vs. output current at 12V,

Efciency

90%

88

typ.

a) 230Vac
b) 120Vac
c) 100Vac

86

84

82

80

78

0

Output Current

1342

2.5 3.50.5 1.5

4.5

a

b

c

Fig. 8-2 Losses vs. output current at 12V,

typ.

Power Losses

12W

a) 230Vac
b) 120Vac

10

c) 100Vac

8

6

4

2

0

0

0.5 1.51

Fig. 8-3 Efciency vs. input voltage at 12V,

Efciency

4.5A, typ.

89%

88

87

86

85

84

83

85 120

Input Voltage

190 225 260Vac

155

Fig. 8-4 Losses vs. input voltage at 12V, 4.5A,

Power Losses

typ.

12W

10

8

6

4

2

0

Input Voltage

85 120

Output Current

2 2.5 3 3.5 4

190 225 260Vac

155

4.5

c

b
a

All parameters are specified at 12V, 4.5A, 230Vac input, 25°C ambient and after a 5 minutes run-in time unless noted otherwise.

8 Rockwell Automation Publication 1606-RM016A-EN-P — February 2014