TDK FPS-T1U, FPS1000-12, FPS-S1U Rear panel description, Control and monitoring signals connector

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FPS-S1U Instruction Manual

10.7.3 Making the load connections

!WARNING

Hazardous voltages may exist at the outputs and the load connections when using a power supply with a rated output greater than 40V. To protect personnel against accidental contact with hazardous voltages, ensure that the load and it's connections has no accessible live parts. Ensure that the load wiring insulation rating is greater than or equal to the maximum output voltage of the power supply.

The load wires should be properly terminated with terminals securely attached. DO NOT use unterminated wires for load connection at the FPS-S1U.

10.7.4 Rear panel description

1

2

3

4

5

1

Fig. 10-1: FPS-S1U Rear panel

1.Mounting brackets. Use M6x12 screws to fix the FPS-S1U to the rack.

2: DB25 connector for control and monitoring signals.

3: Output voltage terminals. Use M6x16 screws and M6 lug to connect the load wire. The recommended tightening torque is 42~56Kgf.cm.

4.DIP switch for I2C option address setting. Refer to Chapter 14 for details.

5.IEC320 AC inlets, shown for FPS-S1U rack. For FPS-S1U/P, there are no IEC320 inlets on the rack.

10.7.5Control and monitoring signals connector

Pin No

Function

Description

1

V_TRIM_B

Connection for output voltage trimming of FPS1000 unit "B". The voltage can be

 

 

trimmed within its range specifications.

 

 

 

2

TEMP_ALARM_B

Open collector signal, referenced to pin 11 (Signal Return). On when the internal temperature

 

 

of FPS1000 unit "B" is within safe limit, Off approx. 10°C below Thermal shut down. The

 

 

maximum sink current is 10mA and the maximum external voltage is 15V.

 

 

 

3

DC_OK_B

Open collector signal, referenced to pin 11 (Signal Return). On when the output voltage

 

 

of FPS1000 unit "B" is higher than 80%+/-5%. The maximum sink current: 10mA

 

 

and the maximum external voltage is 15V.

 

 

 

4

TEMP_ALARM_A

Open collector signal, referenced to pin 11 (Signal Return). On when the internal temperature

 

 

of FPS1000 unit "A" is within safe limit, Off approx. 10°C below Thermal shut down. The

 

 

maximum sink current is 10mA and the maximum external voltage is 15V.

 

 

 

5

ON/OFF_A

Turns the output of FPS1000 unit "A" to On and Off by electrical signal or dry contact

 

 

between pin 5 and pin 11 (Signal Return). 0~0.6V or Short: On, 2~15V or Open:

 

 

Off. The maximum source current is 2.6mA.

 

 

 

6

DC_OK_A

Open collector signal, referenced to pin 11 (Signal Return). On when the output

 

 

voltage of FPS1000 unit "A" is higher than Vout 80%+/-5%. The maximum sink

 

 

current: 10mA and the maximum external voltage is 15V.

 

 

 

7

V_TRIM_A

Connection for output voltage trimming of FPS1000 unit "A". The voltage can be

 

 

trimmed within its range specifications.

 

 

 

8

+12V_AUX

Auxiliary voltage output, 11.2~12.5V, referenced to pin 11 (Signal Return). The

 

 

maximum load current is 0.25A. This output has built in Oring diode and is not controlled

 

 

by the On/Off control.

 

 

 

27

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Contents FPS Series 1000W In 1U FPS1000 Series Table of Contents Warranty Service WarrantyLimitation of Warranty DisclaimerFPS1000 Power Supply and FPS-S1U Rack Safety Instructions Safety Symbols FPS1000 Series Specifications Outline Drawings FPS 1000 Series Outline Drawings FPS 1000/P Series Outline Drawings FPS1000 Power Supply Installation Connecting the Load Load WiringCurrent Carrying Capacity Noise and Impedance Effects Inductive loadsMaking the load connections Input/Output connector information Repackaging for ShipmentFunctions and Features Remote On/Off control Dcok signalACFail signal FPS10004.7KΩRemote Sensing Connecting Multiple loads, radial distribution method Connecting single load, Local sensingConnecting Single Load, Remote Sensing Basic Connections for OperationMultiple loads connection with distribution terminals Grounding outputsParallel operation with Remote sensing Parallel and Series OperationParallel operation Output voltage trimming at parallel operationSignal Return bus at parallel operation Remote On/Off control at parallel operationSeries operation Series connection for positive and negative output voltageI2C BUS Interface Option Block diagram of the I2C option Operation and functions 7.4.1. Digital statusEeprom functions Analog functions 4 A/D ScalingOutput current readback Typical application diagram FPS1000FPS1000 Maintenance FPS-S1U 19 Rack Single Output Chapter FPS-S1U Rack Specifications Maximum output powerFPS-S1U Rack Installation FPS-S1U Rack MountingControl and monitoring signals connector Rear panel descriptionSCL I2C Modules location Blank panelsFPS-S1U and FPS-S1U/P Outline Drawings FPS-S1U/P Outline Drawing Basic Connections for Operation FPS-S1U Rack Multiple loads connectionSupervisory signals 12.4 On/Off controlOutput voltage trimming Parallel operation with Remote sensing Signal Return bus at parallel operation Output voltage trimming at parallel operationRemote On/Off control at parallel operation FPS-S1U I2C BUS Interface Option IntroductionAddressing A0, A1, A2 Periodic maintenance FPS-S1U MaintenanceUnits under warranty Adjustments and CalibrationFPS-T1U 19 Rack Triple Output FPS-T1U Rack Specifications ChapterFPS-T1U Rack Installation FPS-T1U Rack MountingFPS-T1U Rear panel J1A, J2B, J3C Conector Description Modules location FPS-T1U and FPS-T1U/P Outline Drawings FPS-T1U/P Outline Drawing Basic Connections for Operation FPS-T1U Rack 19.2 On/Off controlOutput Voltag Trimming Load Series operation FPS-T1U I2C BUS Interface Option Module a Module B Module CFPS-T1U Maintenance

FPS1000-32, FPS-S1U, FPS1000-48, FPS1000-12, FPS-T1U specifications

TDK has established itself as a leading innovator in power supply solutions with its range of FPS series products, specifically designed for various demanding applications. Among these, the FPS1000-24, FPS-T1U, FPS1000-12, FPS1000-48, and FPS-S1U models stand out due to their advanced features, robust technologies, and versatile characteristics.

The FPS1000-24, catering to a voltage output of 24V, is ideal for both industrial and commercial applications. It delivers a notable output power of 1000 watts while boasting high efficiency, making it a reliable option for systems that require consistent power with minimal energy loss. The model incorporates advanced protection features including over-voltage, over-current, and short-circuit protection, ensuring that connected devices are safeguarded against potential electrical faults.

Similarly, the FPS1000-12 offers a 12V output with equivalent power ratings, making it suitable for applications such as telecommunications and medical devices where stability and reliability are paramount. This model also emphasizes thermal management, utilizing integrated cooling technologies to maintain optimal performance even under demanding conditions.

The FPS1000-48 distinguishes itself with a 48V output, which is increasingly prevalent in high-density computing environments and server applications. With enhanced scalability, this model allows for multiple unit configurations to support higher load demands while maintaining exceptional efficiency levels.

In addition to the standard offerings, TDK’s FPS-T1U and FPS-S1U models provide intelligent power management solutions. The FPS-T1U, being a compact version, is tailored for space-constrained environments, ensuring high performance without compromising on size. It features built-in monitoring capabilities that allow users to track power usage and efficiency metrics in real-time.

The FPS-S1U is particularly notable for its modular design, enabling easy integration into various systems. This flexibility allows users to adapt the power supply to specific system requirements, enhancing functionality across diverse applications. Both models leverage cutting-edge technology to ensure low standby power consumption, reducing the overall energy footprint.

Overall, TDK’s FPS series exemplifies a commitment to quality, performance, and adaptability, making them ideal candidates for modern power supply needs across industries. With their comprehensive protection mechanisms, efficiency, and innovative designs, they stand as reliable choices for engineers and designers looking to optimize their systems.