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LZS-A

A1500-33  Power  Supply

Revision F : November 2013

Page. 8

4.  GUIDE TO APPLICATION

4.1  SAFETY NOTICE

Dangerous voltages exist in this equipment. Observe the usual safety precautions when operating,

wiring, or servicing to reduce the risk of shock or injury.

4.2  INPUT  VOLTAGE

See Table 3 on page 4.

4.3  OUTPUT  VOLTAGE

This power supply operates as a constant-voltage source with maximum load ratings as listed on

page 4.  If the load current tries to exceed 110% of the 60°C rating, the output voltage will begin

to decrease, thereby limiting the power delivered to the load.  Upon removal of overload, normal

operation will resume.

When shipped from the factory, the power supply is ready for use with output voltage (Vout) set to

its nominal rating of 24.0V.  Jumpers are in place on TB201 for local voltage sensing.  Where

precise regulation is required directly at the load, remote voltage sensing can be utilized.  This

can be achieved by utilizing the remote sense terminals on TB201 or "D" connector (see Figs.2

and 3).  The output voltage can be increased by turning the Vout adjust potentiometer clockwise.

The output voltage is decreased by turning the Vout adjust potentiometer counter clockwise.

As shown on page 4, LZS-A1500 power supplies have both a maximum current rating and a

maximum output power rating (as a function of ambient temperature). Care should be taken to

limit both output current and output power to be within specified limits.  If these limitations are

not adhered to, the internal thermal protection circuit may shut down the power supply's opera-

tion.  For remote voltage sensing, the maximum limits for output power, as given on page 4,

apply at the power supply output terminals, not at the remote sensing point.

When adjusting the output voltage above 24.0V, ensure that there is sufficient OVP margin with

respect to the output voltage, to avoid nuisance tripping.

4.4  OVERVOLTAGE  PROTECTION  CIRCUIT  ADJUSTMENT

The overvoltage protection circuit provides an adjustable means of disabling the DC output if it

should exceed a pre-determined safe value.  When shipped from the factory, the overvoltage

level on each LZS unit is set as given in table 6 on page 5.  If a different OVP threshold is

required, it can be adjusted using the following method:

1. Turn the OVP Adjust potentiometer fully clockwise (at least 10 turns).

2. With the power supply unloaded, set Vout to the OVP threshold desired.  In cases where the

desired OVP threshold exceeds the unit’s adjustment range maximum of 29.4V, a programming

resistor (see figures 4 & 5) will temporarily be needed to provide the higher output voltage to

perform the adjustment. Once adjusted, remove the programming resistor. Alternatively, you may

use an external voltage source to set the OVP threshold as shown in figures 4 & 5.

3. Slowly turn the OVP adjust control counter clockwise while monitoring the output voltage.  Stop

turning the control immediately when the red FAULT indicator lights, indicating an OVP shutdown.

At that point, the OVP threshold is set to the desired value.

4.5  OVERTEMPERATURE AND OVERVOLTAGE SHUTDOWN

LZS-A1500 power supplies will automatically shut down if operating conditions cause excessive

internal heating or excessive output voltage.  After the occurrence of an overvoltage shut down,

input power must be interrupted or the remote on/off feature must be toggled to re-establish the

output.  Overtemp shutdown resets itself once the unit has cooled off by approximately 10

°

C.  

4.6  AUXILIARY  CONTROL  AND  ALARM  SIGNALS

LZSa power supplies provide auxiliary control and alarm signals per page 5.  These signals are

accessible via the15-pin, sub miniature "D" connector, located below the output terminals of the

unit.

Summary of Contents for LZS-A1500-3

Page 1: ...LZS A1500 3 POWER SUPPLY Installation Operation and Maintenance Manual IM L LZSA1500 3 3 November 2013 Revision F...

Page 2: ......

Page 3: ...Practices 2 1 1 General safety instructions 2 1 2 Safety Agency Approvals 2 2 RATINGS AND SPECIFICATIONS 4 3 FEATURES 6 4 GUIDE TO APPLICATION 8 4 1 Safety Notice 8 4 2 Input Voltage 8 4 3 Output Vol...

Page 4: ...gemeine Sicherheitsanweisungen Dieses Netzteil ist ein Primaerschaltregler Geraet f r Applikationen mit Verschmutzungsgrad 2 Eine passende mechanische Abdeckung und Brandschutzumhuellung ist in der En...

Page 5: ...ecke vorgesehen und duerfen nicht abgedeckt werden 9 Fremdgegenst nde oder Teile niemals in Gehaeuseoeffnungen bringen es besteht Gefahr durch moeglichen elektrischen Schlag der ggf Personenschaeden z...

Page 6: ...0 AM at 1kHz Power Frequency Magnetic Field IEC61000 4 8 3 A m Voltage Dips Short Variations IEC61000 4 11 5 of nom line for 5 cycles Criteria A 40 for 5 cycles Criteria A 70 for 25 cycles Criteria A...

Page 7: ...wer 220VAC mS 10 Ride through Full Power 220VAC mS 20 Voltage Sag Immunity Full Power 220VAC Semi F47 compliant Load Transient Response 1 of Vo 1A S Recovers to within 25 step load change 0 2 in 1 25...

Page 8: ...ible signal connected between pins 6 and 7 of D connector see Fig 9 Signals Isolation Pins 6 and 7 are fully isolated from all other power supply terminals Signal Logic Logic zero below 0 7 V short ci...

Page 9: ...d Mounting One mounting surface mounting position not restricted Maximum allowable penetration into power supply is 1 4 Requires No M4 metric hardware supplied with unit Input and Output Connections T...

Page 10: ...output voltage above 24 0V ensure that there is sufficient OVP margin with respect to the output voltage to avoid nuisance tripping 4 4 OVERVOLTAGE PROTECTION CIRCUIT ADJUSTMENT The overvoltage protec...

Page 11: ...3055 Del Sol Blvd San Diego CA 92154 1 800 LAMBDA 4 LZS A A1500 3 3 Power Supply Revision F November 2013 Page 9 Figure 1 PIN Assignments for TB201 and chassis mounted D connector 5 Figures...

Page 12: ...ZS A A1500 3 3 Power Supply Revision F November 2013 Page 10 Figure 3 Typical Remote Sense Connection Figure 2 Typical Local Sense Connection LS Local Sense S Remote Sense LS Local Sense S Remote Sens...

Page 13: ...F November 2013 Page 11 Figure 5 Remote Voltage Control with an External Programming Resistor or Voltage Source Remote Sensing Figure 4 Remote Voltage Control with an External Programming Resistor or...

Page 14: ...LZS A A1500 3 3 Power Supply Revision F November 2013 Page 12 Figure 6 Parallel Operation...

Page 15: ...3055 Del Sol Blvd San Diego CA 92154 1 800 LAMBDA 4 LZS A A1500 3 3 Power Supply Revision F November 2013 Page 13 Figure 7 Series Operation...

Page 16: ...LZS A A1500 3 3 Power Supply Revision F November 2013 Page 14 Figure 8 Outline Drawing...

Page 17: ...5 Del Sol Blvd San Diego CA 92154 1 800 LAMBDA 4 LZS A A1500 3 3 Power Supply Revision F November 2013 Page 15 Figure 9 Remote Output On Off Control Figure 10 Input Good Inverter Good Output Good Sign...

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