Vertiv NetSure R48-2000, NetSure R48-2000H, NetSure R48-2000e User Manual

NetSure™

Rectifier Module

User Manual (UM1R482000e / 11BU1360YY), Revision J

Specification Number: 1R482000, 1R482000e, 1R482000H
Model Number: R48-2000, R48-2000e, R48-2000H

2

The information contained in this document is subject to change without
notice and may not be suitable for all applications. While every precaution
has been taken to ensure the accuracy and completeness of this
document, Vertiv Group Corporation assumes no responsibility and
disclaims all liability for damages resulting from use of this information or
for any errors or omissions. Refer to other local practices or building codes
as applicable for the correct methods, tools, and materials to be used in
performing procedures not specifically described in this document.

This document may contain confidential and/or proprietary information of
Vertiv Group Corporation, and its receipt or possession does not convey
any right to reproduce, disclose its contents, or to manufacture or sell
anything that it may describe. Reproduction, disclosure, or use without
specific authorization from Vertiv Group Corporation is strictly prohibited.

Vertiv and the Vertiv logo are trademarks or registered trademarks of
Vertiv Group Corporation. NetPerform™, NetReach™, NetSure™ and
NetXtend™ are trademarks of Vertiv Energy Systems, Inc. All other
trademarks are the property of their respective owners.

© 2017 Vertiv Energy Systems, Inc. All rights reserved.

Vertiv | NetSure Rectifier Module User Manual (UM1R482000e / 11BU1360YY) | Rev. J

3

TABLE OF CONTENTS

Admonishments Used in this Document ............................................................ 4

Important Safety Instructions .............................................................................. 5

General Safety ...........................................................................................................................................................5

Voltages ...........................................................................................................................................................................5

AC Input Voltages ........................................................................................................................................................ 5

DC Output and Battery Voltages .................................................................................................................. 5

Hazardous Voltage ...............................................................................................................................................5

Handling Equipment Containing Static Sensitive Components..............................5

Static Warning ........................................................................................................... 6

Introduction ............................................................................................................... 7

Overview .......................................................................................................................................................................... 7

Specifications ............................................................................................................................................................. 7

DC Output Ratings ...................................................................................................................................................... 7

AC Input Ratings ..........................................................................................................................................................11

Environmental Ratings: ........................................................................................................................................ 19

Compliance Information ..................................................................................................................................... 20

Standard Features ................................................................................................................................................... 20

Mechanical Specifications ................................................................................................................................. 23

Operation ................................................................................................................. 24

AC Input Protection Device Requirements/Recommendations.......................... 24

Local Indicators .................................................................................................................................................... 24

Rectifier High Voltage Shutdown and Lockout Restart .............................................. 24

Installing Rectifiers ............................................................................................................................................ 25

Troubleshooting and Repair ............................................................................... 26

Troubleshooting .................................................................................................................................................. 26

Rectifier Current Sharing Imbalance ....................................................................................................... 26

Rectifier Fault Symptoms and Troubleshooting .......................................................................... 26

Replacement Procedures ........................................................................................................................... 28

Rectifier Replacement ........................................................................................................................................... 28

Rectifier Fan Replacement ............................................................................................................................... 29

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4

DANGER

in death or serious injury if not avoided. (ANSI, OSHA)

WARNING

result in
death or serious injury if not avoide
risk only to equipment, software, data, or service. (ANSI)

CAUTION

result in minor or moderate injury if not avoided. (ANSI, OSHA) This admonition is not
used for situations that pose a risk only to equipment, data, or service, even if such use
appears to be permitted in some of the applicable standards. (OSHA)

ALERT

equipment, software, data, or service. (ISO)

ALERT

equipment damage, software corruption, data loss, o

FIRE SAFETY

or policies, or of the locations of fire

SAFETY

policies not related to a particular source of hazard or to fire safety. (ISO, ANSI, OSHA)

ADMONISHMENTS USED IN THIS DOCUMENT

! Warns of a hazard the reader

! Warns of a potential hazard the reader

! Warns of a potential hazard the reader

! Alerts the reader to an action that

will

be exposed to that will

may

be exposed to that

d. This admonition is not used for situations that pose a

may

be exposed to that

must be avoided

in order to protect

likely

result

could

could

! Alerts the reader to an action that

! Informs the reader of fire safety information, reminders, precautions,

! Informs the reader of general safety information, reminders, precautions, or

Vertiv | NetSure Rectifier Module User Manual (UM1R482000e / 11BU1360YY) | Rev. J

-fighting and fire-safety equipment. (ISO)

must be performed

r service interruption. (ISO)

in order to prevent

5

IMPORTANT SAFETY INSTRUCTIONS

General Safety

DANGER! YOU MUST FOLLOW APPROVED SAFETY PROCEDURES.

Performing the following procedures may expose you to hazards. These procedures should be
performed by qualified technicians familiar with the hazards associated with this type of equipment.
These hazards may include shock, energy, and/or burns. To avoid these hazards:

a) The tasks should be performed in the order indicated.

b) Remove watches, rings, and other metal objects.

c) Prior to contacting any uninsulated surface or termination, use a voltmeter to verify that no voltage

or the expected voltage is present. Check for voltage with both AC and DC voltmeters prior to
making contact.

d) Wear eye protection.

e) Use certified and well maintained insulated tools. Use double insulated tools appropriately rated for

the work to be performed.

Voltages

AC Input Voltages

DANGER! This system operates from AC input voltage capable of producing fatal electrical shock.

DC Output and Battery Voltages

DANGER! This system produces DC power and may have a battery source connected to it. Although

the DC voltage is not hazardously high, the rectifiers and/or battery can deliver large amounts of current.
Exercise extreme caution not to inadvertently contact or have any tool inadvertently contact an output
terminal or battery terminal or exposed wire connected to an output terminal or battery terminal.
NEVER allow a metal object, such as a tool, to contact more than one termination or battery terminal at a
time, or to simultaneously contact a termination or battery terminal and a grounded object. Even a
momentary short circuit can cause sparking, explosion, and injury.

Hazardous Voltage

DANGER! HAZARD OF ELECTRICAL SHOCK.

More than one disconnect may be required to de-energize the system before servicing.

Handling Equipment Containing Static Sensitive Components

ALERT! Installation or removal of equipment containing static sensitive components requires careful

handling. Before handling any equipment containing static sensitive components, read and follow the
instructions contained on the Static Warning Page.

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6

STATIC WARNING

This equipment contains static sensitive components. The warnings listed below must be observed to

prevent damage to these components. Disregarding any of these warnings may result in personal injury
or damage to the equipment.

1. Strictly adhere to the procedures provided in this document.

2. Before touching any equipment containing static sensitive components, discharge all static

electricity from yourself by wearing a wrist strap grounded through a one megohm resistor. Some
wrist straps have a built-in one megohm resistor; no external resistor is necessary. Read and follow
wrist strap manufacturer’s instructions outlining use of a specific wrist strap.

3. Do not touch traces or components on equipment containing static sensitive components. Handle

equipment containing static sensitive components only by the edges that do not have connector
pads.

4. After removing equipment containing static sensitive components, place the equipment only on

conductive or anti-static material such as conductive foam, conductive plastic, or aluminum foil. Do
not use ordinary Styrofoam™ or ordinary plastic.

5. Store and ship equipment containing static sensitive components only in static shielding containers.

6. If necessary to repair equipment containing static sensitive components, wear an appropriately

grounded wrist strap, work on a conductive surface, use a grounded soldering iron, and use
grounded test equipment.

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7

INTRODUCTION

Overview

The rectifiers provide load power, battery float current, and battery recharge current during normal operating
conditions. The rectifiers are a constant power design. The rectifiers are rated at their maximum output power.
This means that, within the normal operating ambient temperature range and input voltage range, the
maximum available output power is a constant 2000W. Within these ranges, the rectifiers operate in one of
three modes, depending upon load demands. Transition between modes is completely automatic. If ambient
temperature rises above or input voltage falls below acceptable values, rectifiers continue to operate but at
derated output power levels.

• Constant Voltage Mode: For any initial output voltage setting from 42 to 58 volts, output voltage

remains constant regardless of load. This is the normal operating condition, in which loads are being
supplied and batteries are float charged. Rectifiers operate in the Constant Voltage Mode unless load
increases to the point where the product of load current and output voltage is approximately 2000W.

• Constant Power Mode: As load increases above approximately 2000W (non-adjustable), output current

continues to increase, but output voltage decreases as required to maintain constant output power.
Rectifiers operate in the Constant Power Mode unless load continues to increase to the point where the
current limit setting is reached.

• Constant Current Mode: If load increases to the current limit setting, output voltage decreases linearly

to maintain output current at the current limit setting.

Specifications

DC Output Ratings

NOTE!

controller.

• Voltage: Nominal -48.0 VDC, Positive Ground.

a) Adjustment Range: The output voltage can be set within the range of -42V to -58V, adjustable via

• Output Power and Current:

2000W (41.7A) @ 208/240VAC Input and -48VDC Output.
1262W (26.3A) @ 120VAC Input and -48VDC Output.

• Output Characteristics:

a) Refer to Figure 1 for a graph of output voltage vs. output current for the R48-2000e rectifier.

b) Refer to Figure 2 for a graph of output voltage vs. output current for the R48-2000 and R48-2000H

A current limitation can be set by the User and the output voltage level is set through the

the controller.

rectifier.

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8

Figure 1:

Figure 2:

Output Voltage vs. Output Current [R48-2000e (1R482000e)]

Output Voltage vs. Output Current [R48-2000 (1R482000) and R48-2000H (1R482000H)]

• Power Derating Based on Input Voltage: The rectifier power varies with changes in input voltage and

output voltage. It uses an advanced power limitation method. The lower input threshold is 85 VAC. The
rectifier can provide its maximum rated power (2000W) as long as the input voltage is within the range
of 176 to 300 VAC. Below 176 VAC, and down to 85 VAC, the rectifier will continue to operate normally
but will be in a power derating mode. The relationship between the output power and input voltage is
illustrated in Figure 3 and Figure 4.

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Figure 3:

Figure 4:

Power Derating Based on Voltage [R48-2000 (1R482000) and R48-2000H (1R482000H)]

Power Derating Based on Voltage [R48-2000e (1R482000e)]

• Power Derating Based on Temperature: The rectifier delivers full power when operating at an ambient

temperature of +45°C (+113°F) or below (1R482000 and 1R2000H) or +55°C (+131°F) or below
(1R482000e). Each rectifier continuously monitors the ambient temperature surrounding the power
conversion circuit. If this temperature for any reason (such as a high ambient temperature or failed fan)
increases above approximately +45°C (+113°F) (R48-2000 and R48-2000H) or +55°C (+131°F) (R48­2000e), the rectifier will not shut down. Rather, the rectifier limits its maximum output power to
maintain the temperature of the power conversion circuit within design parameters. Operation between
+45°C (+113°F) (R48-2000 and R48-2000H) or +55°C (+131°F) (R48-2000e) and +80°C (+176°F) will
result in output power being decreased. Full power capability is restored when the temperature
decreases to below approximately +45°C (+113°F) (R48-2000 and R48-2000H) or +55°C (+131°F) (R48­2000e). Refer to Figure 5 and Figure 6 to view the relationship between the output power and the
ambient temperature.

Other power rating values are as follows:

a) 1R482000 and 1R2000H:

1. At an ambient temperature of +65°C (+149°F), the power delivered by the rectifier is 1600W.

2. At an ambient temperature of +75°C (+158°F), the power delivered by the rectifier is 800W.

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10

b) 1R482000e:

1. At an ambient temperature of +65°C (+149°F), the power delivered by the rectifier is 1750W.

2. At an ambient temperature of +75°C (+158°F), the power delivered by the rectifier is 1500W.

WARNING! The rectifier is rated for continuous operation at full output power up to +45°C (+113°F)

(R48-2000 and R48-2000H) or +55°C (+131°F) (R48-2000e). Operation between +45°C (+113°F) (R48­2000 and R48-2000H) or +55°C (+131°F) (R48-2000e) and +80°C (+176°F) will result in output power
decrease. Operation above +80°C (+176°F) is considered abnormal and should be used on a temporary1
basis only.

1

Temporary Operation at Abnormal Temperature: Temporary operation is defined as a period of

not more than eight consecutive hours per day, and a total of not more than 15 days in a year.
(This refers to a total of 120 hours in any given year, but no more than 15 occurrences in that one­year period.)

Figure 5:

Figure 6:

Power Derating Based on Temperature [R48-2000 (1R482000) and R48-2000H (1R482000H)]

Power Derating Based on Temperature [R48-2000e (1R482000e)]

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11

• Regulation:

a) Static: Steady state regulation is ±0.5% as controlled within the rectifier for any and all combinations

b) Dynamic: For any step load change within the range of 10% to 90% of full load within 50

• Filtering:

a) Voice Band Noise: Complies with Telcordia GR-947-CORE.

of load from no load to full load, input voltage, and input frequency at a constant ambient
temperature. The associated system controller may provide increased regulation.

microseconds, per Telcordia GR-947-CORE, the maximum voltage transient will not exceed 5% of
the initial steady state voltage within 50±10 microseconds. Recovery to within 1% of the initial
steady state voltage does not exceed 4 milliseconds.

1. R48-2000 (1R482000) and R48-2000H (1R482000H): Output noise according to Telcordia

GR-947-CORE is <32 dBrnC at normal input and full load.

2. R48-2000e (1R482000e): Output noise according to Telcordia GR-947-CORE is <38 dBrnC

typical at normal input and 20% to 70% of rated load.

3. R48-2000 (1R482000) and R48-2000H (1R482000H): Psophometric noise is ≤1 mV at 5% to

100% of rated load.

4. R48-2000e (1R482000e): Psophometric noise is ≤2 mV typical at 20% to 70% of rated load.

b) Wide Band Noise: Complies with Telcordia GR-947-CORE.

1. Wideband noise emission is <250 mV peak to peak between 0 Hz – 100 MHz, and <100 mV rms

in any 3 kHz band 10 – 20 MHz.

AC Input Ratings

• Voltage: Nominal 120/208/240 volts AC, single phase, 3-wire, 50/60 Hz, with an operating range of 100

to 250 volts. Acceptable input frequency range is 45 to 65 Hz.

Permitted Variation: 85 to 300 VAC.

• Harmonic Content (THD): ≤5% from 50% to 100% of rated load. Meets EN61000-3-2.

• Inrush Current: Peak does not exceed 1.5 times of the peak value of the maximum steady-state input

current at full load, nominal input voltage, and for any duration of AC input interrupts. Under the above
conditions, standard AC distribution circuit breakers will not trip.

• Typical Input Data (1R482000e):

a) Refer to Table 1 and Table 3.

b) Maximum Input Current: Refer to Table 2 and Table 4.

c) Efficiency Curve: (Refer to Figure 7.)

• Typical Input Data (1R482000):

a) Refer to Table 5 and Table 7.

b) Maximum Input Current: Refer to Table 6 and Table 8.

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0

0.36

73.5

30.5

41.50

--

104.07

50

4.77

992.1

984.5

99.23

95.99

134.85

100

9.55

1984.5

1980.5

99.80

94.90

344.98

110

10.32

2149.8

2139.5

99.52

94.58

395.71

0

0.38

106.6

32.5

30.50

--

110.89

50

4.15

996.0

982.0

98.59

96.21

127.10

75

6.15

1477.6

1468.0

99.35

95.94

203.59

110

8.90

2134.8

2127.5

99.66

95.08

357.51

Input Current

c) Efficiency Curve: (Refer to Figure 8.)

• Typical Input Data (1R482000H):

a) Refer to Table 9 and Table 11.

b) Maximum Input Current: Refer to Table 10 and Table 12.

c) Efficiency Curve: (Refer to Figure 9.)

Table 1:

Nominal

Input

Voltage

Typical Input Data (1R482000e): 60 Hz input

Percent

of Full

Load

Input

Current

(Amperes)

Input

VA

25 2.45 508.9 496.0 97.47 95.14 82.25

208

75 7.11 1478.2 1473.0 99.65 95.63 219.77

120 10.36 2151.8 2147.5 99.80 94.22 423.81

25 2.13 509.3 494.5 97.10 95.37 78.10

240

100 8.24 1977.5 1970.0 99.62 95.38 310.33

Input

Watts

Power

Factor %

Efficiency

%

Heat

Dissipation

BTU/Hr

Table 2:

Vertiv | NetSure Rectifier Module User Manual (UM1R482000e / 11BU1360YY) | Rev. J

120 8.94 2142.9 2135.0 99.63 94.69 386.49

NOTE!

System output is initially adjusted to 54.48 volts DC as measured at the system sense point at

50% of full load and nominal input. “Percent of Full Load” refers to percent of 34.5 amperes.

Maximum Input Current (1R482000e): 60 Hz input

Nominal

Input Voltage

Input Voltage

(Amperes)

208/240 176 11.73

NOTE!

At 100% of full load with output adjusted to 58 volts DC as measured at the shelf output

terminals.

13

0

0.32

71.1

33.0

46.40

--

112.60

50

4.76

990.4

985.0

99.45

95.94

136.37

100

9.55

1983.5

1980.5

99.85

94.89

345.17

110

10.32

2142.8

2140.0

99.87

94.55

398.12

0

0.33

74.3

26.0

35.00

--

88.72

50

4.13

991.9

982.0

99.00

96.21

126.91

75

6.15

1474.3

1467.5

99.54

95.97

201.88

110

8.89

2132.8

2127.5

99.75

95.06

358.79

Input Current

Table 3:

Nominal

Input

Voltage

208

240

Typical Input Data (1R482000e): 50 Hz input

Percent

of Full

Load

Input

Current

(Amperes)

Input

VA

25 2.43 505.3 496.0 98.15 95.15 82.07

75 7.11 1477.2 1473.5 99.75 95.58 222.17

120 10.36 2150.7 2147.5 99.85 94.21 424.15

25 2.11 505.1 494.5 97.90 95.42 77.24

100 8.24 1975.3 1970.0 99.73 95.38 310.33

Input

Watts

Power

Factor %

Efficiency

%

Heat

Dissipation

BTU/Hr

Table 4:

Input Voltage

120 8.93 2141.3 2135.5 99.73 94.68 387.69

NOTE!

System output is initially adjusted to 54.48 volts DC as measured at the system sense point at

50% of full load and nominal input. “Percent of Full Load” refers to percent of 34.5 amperes.

Maximum Input Current (1R482000e): 50 Hz input

Nominal

Input Voltage

(Amperes)

208/240 176 11.73

NOTE!

At 100% of full load with output adjusted to 58 volts DC as measured at the shelf output

terminals.

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0

0.30

62.3

27.9

44.80

--

95.20

50

4.96

1030.5

1030.0

99.95

91.61

294.95

100

9.96

2064.8

2064.0

99.96

90.90

640.80

110

10.80

2229.3

2228.0

99.94

90.43

727.33

0

0.33

77.8

27.7

35.60

--

94.52

50

4.29

1028.8

1026.0

99.73

91.90

283.66

75

6.38

1529.5

1529.0

99.97

91.90

422.83

110

9.20

2208.2

2208.0

99.99

90.83

690.89

Input Current

Table 5:

Nominal

Input

Voltage

208

240

Typical Input Data (1R482000): 60 Hz input

Percent

of Full

Load

Input

Current

(Amperes)

Input

VA

25 2.56 530.8 526.0 99.10 89.58 187.02

75 7.40 1535.2 1535.0 99.99 91.61 439.34

120 10.80 2231.3 2230.0 99.94 89.93 766.53

25 2.23 534.1 525.0 98.30 89.70 184.52

100 8.58 2055.2 2055.0 99.99 91.23 614.94

Input

Watts

Power

Factor %

Efficiency

%

Heat

Dissipation

BTU/Hr

Table 6:

Input Voltage

120 9.26 2217.2 2217.0 99.99 90.25 737.58

NOTE!

System output is initially adjusted to 54.48 volts DC as measured at the system sense point at

50% of full load and nominal input. “Percent of Full Load” refers to percent of 34.5 amperes.

Maximum Input Current (1R482000): 60 Hz input

Nominal

Input Voltage

(Amperes)

208/240 176 12.33

NOTE!

At 100% of full load with output adjusted to 58 volts DC as measured at the shelf output

terminals.

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0

0.26

53.8

28

52.00

--

95.54

50

4.95

1029.3

1029

99.97

91.65

293.16

100

10.00

2065.8

2065

99.96

90.80

648.59

110

10.72

2220.7

2220

99.97

90.36

730.03

0

0.29

65.9

27

41.00

--

92.13

50

4.29

1028.7

1027

99.83

91.88

284.42

75

6.37

1531.3

1531

99.98

91.85

425.70

110

9.24

2215.2

2215

99.99

90.90

688.09

Input Current

Table 7:

Nominal

Input

Voltage

208

240

Typical Input Data (1R482000): 50 Hz input

Percent

of Full

Load

Input

Current

(Amperes)

Input

VA

25 2.55 529.2 526 99.40 89.55 187.56

75 7.40 1535.2 1535 99.99 91.54 442.94

120 10.76 2232.9 2232 99.96 89.75 780.85

25 2.22 531.1 525 98.86 89.86 181.62

100 8.57 2057.2 2057 99.99 91.20 617.94

Input

Watts

Power

Factor %

Efficiency

%

Heat

Dissipation

BTU/Hr

Table 8:

Input Voltage

120 9.28 2220.2 2220 99.99 90.32 733.07

NOTE!

System output is initially adjusted to 54.48 volts DC as measured at the system sense point at

50% of full load and nominal input. “Percent of Full Load” refers to percent of 34.5 amperes.

Maximum Input Current (1R482000): 50 Hz input

Nominal

Input Voltage

(Amperes)

208/240 176 12.33

NOTE!

At 100% of full load with output adjusted to 58 volts DC as measured at the shelf output

terminals.

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0

0.33

68.9

36.7

53.30

--

125.23

50

4.90

1018.7

1018.0

99.93

92.81

249.77

100

9.80

2040.6

2040.0

99.97

92.08

551.30

110

10.62

2203.9

2203.0

99.96

91.77

618.43

0

0.362

86.5

36.5

42.20

--

124.54

50

4.26

1018.4

1015.0

99.67

93.11

238.56

75

6.31

1513.6

1513.0

99.96

93.09

356.94

110

9.15

2192.2

2192.0

99.99

92.38

569.78

Input Current

Table 9:

Nominal

Input

Voltage

208

240

Typical Input Data (1R482000H): 60 Hz input

Percent

of Full

Load

Input

Current

(Amperes)

Input

VA

25 2.52 523.8 518.0 98.90 91.05 158.17

75 7.31 1519.2 1519.0 99.99 92.70 378.59

120 10.62 2205.9 2205.0 99.96 91.42 645.48

25 2.20 526.5 516.0 98.00 91.47 150.24

100 8.46 2029.2 2029.0 99.99 92.60 512.45

Input

Watts

Power

Factor %

Efficiency

%

Heat

Dissipation

BTU/Hr

NOTE!

50% of full load and nominal input. “Percent of Full Load” refers to percent of 34.5 amperes.

Table 10:

Nominal

Input Voltage

208/240 176 12.2

NOTE!

terminals.

120 9.14 2190.2 2190.0 99.99 92.17 585.21

System output is initially adjusted to 54.48 volts DC as measured at the system sense point at

Maximum Input Current (1R482000H): 60 Hz input

Input Voltage

(Amperes)

At 100% of full load with output adjusted to 58 volts DC as measured at the shelf output

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0

0.28

58.9

36.1

61.30

--

123.18

50

4.90

1018.4

1018.0

99.96

92.80

250.19

100

9.83

2040.4

2040.0

99.98

92.04

553.78

110

10.62

2203.7

2203.0

99.97

91.77

618.45

0

0.32

75.0

36.0

48.00

--

122.84

50

4.23

1016.2

1014.0

99.78

93.16

236.62

75

6.30

1513.3

1513.0

99.98

93.03

359.86

110

9.12

2184.2

2184.0

99.99

92.44

563.08

Input Current

Table 11:

Nominal

Input

Voltage

208

240

Typical Input Data (1R482000H): 50 Hz input

Percent

of Full

Load

Input

Current

(Amperes)

Input

VA

25 2.52 522.7 519.0 99.30 90.92 160.75

75 7.30 1520.2 1520.0 99.99 92.60 383.63

120 10.62 2203.7 2203.0 99.97 91.45 642.57

25 2.18 523.3 516.5 98.70 91.36 152.32

100 8.46 2026.2 2026.0 99.99 92.69 505.67

Input

Watts

Power

Factor %

Efficiency

%

Heat

Dissipation

BTU/Hr

Table 12:

Input Voltage

120 9.12 2185.2 2185.0 99.99 92.22 579.72

NOTE!

System output is initially adjusted to 54.48 volts DC as measured at the system sense point at

50% of full load and nominal input. “Percent of Full Load” refers to percent of 34.5 amperes.

Maximum Input Current (1R482000H): 50 Hz input

Nominal

Input Voltage

(Amperes)

208/240 176 12.2

NOTE!

At 100% of full load with output adjusted to 58 volts DC as measured at the shelf output

terminals.

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Figure 7:

Figure 8:

Efficiency Curve [R48-2000e (1R482000e)]

Efficiency Curve [R48-2000 (1R482000)]

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Figure 9:

Efficiency Curve [R48-2000H (1R482000H)]

Environmental Ratings:

• Operating Ambient Temperature Range:

a) -40°C (-40°F) to +80°C (+176°F) with derating output.

b) 1R482000 and 1R2000H: -40°C (-40°F) to +45°C (+113°F) with full power performance.

c) 1R482000e: -40°C (-40°F) to +55°C (+131°F) with full power performance.

d) Temperature Coefficient: 0.01% per degrees Celsius.

• Storage Ambient Temperature Range: -40°C (-40°F) to +80°C (+176°F).

• Relative Humidity: This rectifier is capable of operating in an ambient relative humidity range of 0% to

95%, non-condensing.

• Altitude: 2000 m (6560 ft) at full power (power limited for heights above 2000 m).

• Surge Protection: Compliance with EN61000-4-5 (2kV Line to Line, 2kV Line to Earth). Capable of

withstanding surges per ANSI/IEEE C 62.41 1980 Category B3 across the input terminals.

NOTE! This level of protection is a widely used standard for telecommunications power equipment. As

with all such equipment, it is the end user's responsibility to provide an adequately sized Surge
Suppression Device at the commercial power service entrance of the building that reduces all incoming
surges to levels below the classes/categories stated for the equipment.

• Ventilation Requirements: The rectifiers are fan cooled and utilize front to back forced ventilation. A

rectifier must be mounted so ventilating openings are not blocked and temperature of the air entering
the rectifier does not exceed the Operating Ambient Temperature Range stated above.

• Single Rectifier Audible Noise:

a) R48-2000e: At 25°C ≤ 50dB(A) with fan in high speed. Measurement made at 0.6m distance in

front of rectifier and at same horizontal line of the middle of rectifier.

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b) R48-2000 and R48-2000H: At 25°C ≤ 53dB(A) with fan in high speed. Measurement made at 0.6m

distance in front of rectifier and at same horizontal line of the middle of rectifier.

• EMI/RFI Suppression:

a) Rectifiers operating in an approved rectifier Mounting Shelf conform to the requirements of FCC

rules Part 15, Subpart B, Class B for Radiated and Conducted emissions limits.

b) Rectifiers operating in an approved rectifier Mounting Shelf conform to the requirements of

European Norm, EN55022, Class B for Radiated and Conducted emissions limits.

Compliance Information

• EMC: ETSI EN 300 386 class B, FCC CFR 47 Part 15 class B, Telcordia GR-1089-CORE class B.

• Safety: IEC 60950, EN 60950, UL 60950.

Standard Features

• Type of Power Conversion Circuit: High frequency.

• Constant Voltage Mode: For any initial output voltage setting from 42 to 58 volts, output voltage

remains constant regardless of load. This is the normal operating condition, in which loads are being
supplied and batteries are float charged. Rectifiers operate in the Constant Voltage Mode unless load
increases to the point where the product of load current and output voltage is approximately 2000W.

• Constant Power Mode: As load increases above approximately 2000W (non-adjustable), output current

continues to increase, but output voltage decreases as required to maintain constant output power.
Rectifiers operate in the Constant Power Mode unless load continues to increase to the point where the
current limit setting is reached.

• Constant Current Mode: If load increases to the current limit setting, output voltage decreases linearly

to maintain output current at the current limit setting.

• Input Protection:

a) Input Over/Under Voltage Protection: The rectifier will shut down at low or high voltage input; based

on the following voltage levels:

1. Low voltage disable point 80 V, ±5 V; hysteresis is 10 - 20 VAC for restart.

2. High voltage disable point 305 V, ±5 V; hysteresis is 10 - 15 VAC for restart.

b) Between 85 V and 176 V the output power will be derated linearly based on the input voltage as

follows:

1. At input voltage of 85 V with output >48 V, max output power is 800 W.

2. At input voltage of 120 V with output >48 V, max output power is 1262 W.

3. At input voltage of 154 V with output >48 V, max output power is 1700 W.

4. At input voltage of 176 V and output >48 V, max output power is 2000 W.

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• Output Protection:

a) Overload / Reverse Current: The rectifier has a 63A fuse in the negative output DC bus. This fuse is

not customer replaceable. The rectifier can be plugged into or pulled out of a shelf while operating,
without damage or opening the fuse.

b) Current Limiting: The rectifier has a current limit function. The current limit point can be set

between the range of 0 to 41.7 A, adjustable via the controller. The current limit accuracy is ±1.5A
for R48-2000e and ±1.0A for R48-2000 and R48-2000H when the output voltage ranges from 42 to
58 V.

c) Advanced Current Limit Function: The rectifier has an advanced Current Limit Function. When a

short circuit occurs at the rectifier output terminals, the rectifier will keep its output current at a
constant value (value that is configurable via the controller). This function effectively protects the
rectifier and the equipment connected to the rectifier. When the short circuit fault is cleared, the
rectifier will automatically restore back to normal operation.

d) High Voltage Shutdown:

1. Adjustable Control: If rectifier output voltage exceeds an adjustable preset value and the

rectifier is delivering more than 10% of its rated current, the rectifier shuts down. (Adjustable
from 56 VDC to 59 VDC via the controller. The restart hysteresis is 0.5 V ±0.2 V.)

The rectifier then restarts and a HVSD restart timer starts (time value configurable via the
controller, factory default is 5 minutes). If output voltage again exceeds the high voltage
shutdown value before the HVSD restart timer expires, the rectifier shuts down and locks out.
Manual restart is then required (by turning power to the rectifier off or by removing the rectifier,
waiting until the LEDs on the rectifier extinguish, then turning power to the rectifier on or re­inserting the rectifier). If the rectifier does not experience a high voltage condition before the
HVSD restart timer expires, the restart circuit is reset.

If two or more rectifiers are paralleled, only the rectifier causing the high voltage condition shuts
down.

2. Backup: If rectifier output voltage exceeds 59.5 V ±0.5 V (non-adjustable) and the rectifier is

delivering more than 10% of its rated current, the rectifier shuts down. The rectifier then
restarts and a HVSD restart timer starts (time value configurable via the controller, factory
default is 5 minutes). If output voltage again exceeds the high voltage shutdown value before
the HVSD restart timer expires, the rectifier shuts down and locks out. Manual restart is then
required (by turning power to the rectifier off or by removing the rectifier, waiting until the LEDs
on the rectifier extinguish, then turning power to the rectifier on or re-inserting the rectifier).

• Over-Temperature Protection: The rectifier provides over temperature protection by derating output

power and recovers automatically.

• Active Load Sharing: The rectifier uses advanced digital active load sharing technology. The output

current of each rectifier is <±1.2 A of the average current of all rectifiers from 10% to 100% load.

• Hot Swappable: The rectifier is designed to be plug-and-play. The rectifier can be inserted or removed

from a live DC power system with no damage. When the rectifier is plugged into the system, the system
output voltage will not be affected.

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• Cooling: Each rectifier contains a fan for front-to-back force air-cooling.

a) Fan Fault Protection: The rectifier shuts down and its alarm indicator (red) flashes if the fan fails.

Fan failure is detected and reported to controller. The fans are field replaceable.

b) Fan Control: When the input voltage is within a normal range, the built-in processor adjusts the fan’s

speed according to the rectifier ambient and internal temperature. This feature can be disabled
allowing the fan to run at full speed regardless of temperature.

• Paralleling: This rectifier may be connected in parallel with any rectifier of the same polarity and

adjusted to the same output voltage.

• Communication Failure: The rectifier’s protection indicator (yellow) will flash should it experience a

communication failure. The failure information will be reported to the controller and the controller will
process the failure accordingly. During a communication failure, in order to protect the battery, the
rectifier output voltage will automatically be adjusted as follows.

- The rectifier default factory output voltage is 53.5V.

- Once power is applied to the rectifier and the rectifier is recognized by the controller, the output

voltage is updated to the setting programmed into the controller.

- If communications with an SCU+ controller is lost, rectifier output voltage goes to a default value

programmed into the controller (this is a separate programmable parameter from the output voltage
setting).

- If communications with an ACU+ or NCU controller is lost, rectifier output voltage goes to the last

communicated float output voltage setting in the controller (the last communicated float output
voltage setting is stored in the rectifier).

- The rectifier will revert to normal operation once normal communication to the controller is restored.

• Rectifier Output Current Imbalance:

a) When the average current of all rectifiers is greater than 20% of full rated current, and the difference

between local rectifier current and average current is greater than 16% of full rated current, the
yellow protection indicator will illuminate.

b) When the average current of all rectifiers is greater than 10% of full rated current, and local rectifier

current is less than 1.5% of full rated current, then the red fault indicator will illuminate.

• Monitoring Function: The rectifier has a built-in advanced DSP that monitors and controls the operation

of the rectifier. The DSP also communicates with the controller in real time through the CAN bus. Table

13 lists the different commands and information exchanged between the rectifier and the controller.

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Table 13:

Exchange of Information between Rectifier and Controller

Commands / signals that can be
received by the Rectifier from the
Controller.

• Turn On/Off

• Current Walk-in On/Off

• HVSD (High Voltage Shutdown)

Reset

• Current Limit Adjustment

• Voltage Regulation

Information gathered by the
Controller from the Rectifier.

• Input Voltage

• Output Voltage

• Output Current

• Current Limit Setting

• Temperature

• Over Voltage Setting

• On/Off Status

• Fault Alarms, such as:

HVSD
Fan Fail

• Protection Alarms, such as:

Input Voltage Protection
Inner DC Bus Voltage Protection
High Temperature Protection

• Thermal Derating

• AC Derating

• AC Fail

• Imbalance Output Current

• Address

• Code

• Date

• Software Version

Hardware Version

•

• External Control Circuits: Provided via the associated controller. Refer to the separate Power System

documentation for a complete description of available external control circuits.

• External Alarm Circuits: Provided via the associated controller. Refer to the separate Power System

documentation for a description of available external alarms.

Mechanical Specifications

• Dimensions:

a) Millimeters: 86.0 (Height) X 84.5 (Width) X 272.0 (Depth)

b) Inches: 3.4 (Height) X 3.3 (Width) X 10.7 (Depth)

• Weight: 2.4 kg (5.3 lbs).

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• Indicators:

a) Power (Green LED)

b) Protection (Yellow LED)

c) Alarm (Red LED)

OPERATION

AC Input Protection Device Requirements/Recommendations

Refer to the system documentation supplied with the system the rectifier is installed in.

Local Indicators

Location and Identification: Refer to Figure 10.

Description: There are three (3) indicators located on the rectifier’s front panel. The functions of these
indicators are as shown in Table 14.

NOTE!

rectifier) or AC voltage at the input terminals.

DC voltage must be present at the rectifier output terminals (from battery or an operating

Rectifier High Voltage Shutdown and Lockout Restart

Procedure

1. Turn the power to the rectifier off or remove the rectifier, wait 30 seconds or more (until the LEDs on

the rectifier extinguish), then turn the power to the rectifier on or re-insert the rectifier.

Figure 10:

Local Indicator Locations

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AC input under/over voltage.

Loss of communication with the controller

Severe load sharing imbalance.

Table 14:

Rectifier Indicators

Indicator Normal State Alarm State Alarm Cause

No input voltage.
Internal input fuse open.

The rectifier is being identified by the
controller.

Power

(Green)

Off

On

Flashing

PFC output under/over voltage.
Moderate load sharing imbalance.
Rectifier not inserted into the slot

completely.
Rectifier over-temperature protection.

Protection

(Yellow)

On

Off

Rectifier in ECO Standby Mode when ECO
Mode is active in controller.

Flashing

(the rectifier can provide power).

Rectifier output disabled for any reason,

Alarm
(Red)

Off

On

including overvoltage shutdown and
internal output fuse open.

Rectifier addresses contradictory.

Installing Rectifiers

The rectifier is hot swappable. It can be installed with the system operating.

WARNING! To prevent damage to the latching mechanism, ensure the handle is in the open position

when installing or removing a rectifier. NEVER hold the handle in the closed position when installing a
rectifier into a shelf.

Procedure

NOTE!

Refer to

1. Unpack the rectifier.

2. Place the rectifier into an unoccupied mounting slot without sliding it in completely.

3. Loosen the captive fastener securing the top of the latch mechanism to the front of the rectifier. Pull

the top of the latch mechanism away from the rectifier (this will retract the latch mechanism located on
the underside of the rectifier). Refer to Figure 11 for latch mechanism illustration.

Figure 11

Flashing

Fan not operating (rectifier module shuts
down).

as this procedure is performed.

4. Push the rectifier completely into the shelf.

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5. Push the top of the latch mechanism into the front panel of the rectifier and secure by tightening the

captive fastener. This locks the rectifier securely to the shelf.

6. Repeat the above steps for each rectifier being installed in the system.

7. After the rectifiers are physically installed in the mounting shelf(s), they are ready for operation

immediately after power is supplied to them.

8. Certain functions (i.e. rectifier current limit, rectifier addressing) may require adjustment when adding or

replacing a rectifier. Refer to the Power System documentation for instructions.

Figure 11:

Installing a Rectifier

TROUBLESHOOTING AND REPAIR

Troubleshooting

Rectifier Current Sharing Imbalance

When multiple rectifiers are operating in parallel and the current sharing imbalance among them is greater than
20%, check if the rectifier is properly seated in the Power/Distribution Shelf.

If the current sharing imbalance still persists following the verification suggested above, replace the rectifier
which has had its current sharing function disabled.

Rectifier Fault Symptoms and Troubleshooting

The fault indicators that can be displayed by the rectifier are as follows. Refer to Table 15 for a list of possible
causes and corrective actions.

• Power Indicator (Green) Off

• Protection Indicator (Yellow) ON

• Protection Indicator (Yellow) Flashing

• Alarm Indicator (Red) ON

• Alarm Indicator (Red) Flashing

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PFC under/over

Moderate load sharing

Rectifier not inserted

Fan rotor blocked: remove any object that

Protection

Loss of

Rectifier addresses

Alarm

Table 15:

Rectifier Troubleshooting

Symptom Possible Cause(s) Suggested Action(s)

Power

Indicator

(Green) Off

No input voltage. Make sure there is input voltage.

Internal input fuse
open.

AC input under/over
voltage.

voltage.

Replace the rectifier.

Correct the AC input voltage to within the
acceptable range.

Replace the rectifier.

Check if the rectifier is properly seated in the
shelf. If this does not correct the fault, replace
the rectifier.

Remove and properly insert the rectifier.

Protection

imbalance.

into the slot
completely.

Indicator

(Yellow) On

Rectifier over­temperature
protection.

may be blocking the fan.
Ventilation blocked (inlet or outlet): remove

any object that may be blocking the inlet or
outlet.

Ambient temperature too high or rectifier inlet
too close to a heat source: lower the ambient
temperature or relocate the heat source.

Indicator

(Yellow)

Flashing

Alarm

Indicator

(Red) On

Indicator

(Red) Flashing

Rectifier in ECO
Standby Mode when
ECO Mode is active in
controller.

communication with
controller (the rectifier
can provide power).

Severe load sharing
imbalance.

Rectifier output
disabled for any
reason, including
overvoltage shutdown
and internal output
fuse open.

contradictory.

Fan not operating
(rectifier shuts down).

--

Check the communication cables.
Remove and properly insert the rectifier.

Turn AC power to the rectifier off or remove
the rectifier, wait 30 seconds or more (until
the LEDs on the rectifier extinguish), then
turn the AC power to the rectifier on or re­insert the rectifier. If rectifier fails to start,
shuts down again, or load sharing imbalance
persists; replace the rectifier.

Replace the rectifier.

Replace the fan.

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Replacement Procedures

Rectifier Replacement

DANGER! Take care when removing a rectifier that was in operation, as rectifier surfaces could be very

hot.

WARNING! To prevent damage to the latching mechanism, ensure the handle is in the open position

when installing or removing a rectifier. NEVER hold the handle in the closed position when installing a
rectifier into a shelf.

The rectifier is hot swappable. It can be removed and installed with the system operating.

Procedure

NOTE!

Refer to

Figure 11

as this procedure is performed.

1. Performing this procedure may activate external alarms. Do one of the following. If possible, disable

these alarms. If these alarms cannot be easily disabled, notify the appropriate personnel to disregard
any alarms associated with this system while this procedure is performed.

2. On the rectifier to be removed, loosen the captive fastener securing the top of the latch mechanism to

the front of the rectifier. Pull the top of the latch mechanism away from the rectifier (this will retract the
latch mechanism located on the underside of the rectifier). This unlocks the rectifier from the shelf.
Refer to Figure 11 for latch mechanism illustration.

3. Slide the rectifier out by pulling forwards.

4. Place the replacement rectifier into the mounting position without sliding it in completely.

5. On the replacement rectifier, loosen the captive fastener securing the top of the latch mechanism to the

front of the rectifier. Pull the top of the latch mechanism away from the rectifier (this will retract the
latch mechanism located on the underside of the rectifier). See Figure 11.

6. Push the rectifier completely into the shelf.

7. Push the top of the latch mechanism into the front panel of the rectifier, and secure by tightening the

captive fastener. This locks the rectifier securely to the shelf.

8. Certain functions (i.e. rectifier current limit, rectifier addressing) may require adjustment when adding or

replacing a rectifier. Refer to the Power System documentation for instructions.

9. After the rectifiers are physically installed in the mounting shelf(s), they are ready for operation

immediately after power is supplied to them. Verify that the rectifiers are operating normally.

10. Enable the external alarms, or notify appropriate personnel that this procedure is finished.

11. Ensure that there are no local or remote alarms active on the system.

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Rectifier Fan Replacement

Each rectifier uses a fan (P/N 32010096 for R48-2000 and R48-2000H. P/N 32010106 for R48-2000e) for
cooling. If fan replacement should become necessary, perform the following procedure.

Refer to Figure 12 as this procedure is performed.

WARNING! In a system with NO redundant rectifier, battery must have sufficient reserve to power the

load(s) while the rectifier is removed for fan replacement.

NOTE!

When performing any step in this procedure that requires removal of existing hardware, retain all

hardware for use in subsequent steps.

Procedure

1. Performing this procedure may activate external alarms. Do one of the following. If possible, disable

these alarms. If these alarms cannot be easily disabled, notify the appropriate personnel to disregard
any alarms associated with this system while this procedure is performed.

2. Remove the rectifier from the shelf. Refer to a previous procedure for step-by-step instructions.

3. Place the rectifier on a static-safe work surface. Connect an approved grounding strap to your wrist for

the remainder of this procedure.

4. On this rectifier; remove the front panel by removing the screws securing the front panel to the chassis,

and by unplugging the fan from the printed circuit card.

5. For proper orientation of the new fan, observe the location of the fan wires and the air flow arrows on the

old fan.

6. Remove the old fan from the front panel by removing the two screws and clips securing the fan.

7. Install the new fan onto the front panel using the two screws and clips previously removed. Ensure the

fan wires and air flow arrows match the orientation of the old fan.

8. Install the front panel with the new fan onto the chassis by plugging the fan cable into the printed circuit

card, and securing the front panel with the screws previously removed.

9. Replace the rectifier into the shelf. Refer to the previous procedure for step-by-step instructions.

10. When the fans start, check to ensure that each is providing front-to-back airflow. If air direction is

wrong, immediately remove the rectifier from the shelf. Repeat previous steps to check fan orientation,
and correct as necessary. Reinstall the rectifier and again check for proper airflow.

11. Enable the external alarms, or notify appropriate personnel that this procedure is finished.

12. Ensure that there are no local or remote alarms active on the system.

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Figure 12:

Rectifier Fan Replacement

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