Nidec HVAC Drive H300 High IP Step-By-Step Manual

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Diese Anleitung bietet Informationen für eine schnelle Inbetriebnahme eines einfachen Umrichter-Motor-Systems.

This guide provides a fast and simple start-up procedure for a basic drive and motor installation.

Bei aufwendigeren Systemen: Umfassende Betriebsanleitungen, Online-Videos und Hilfsmittel ﬁnden Sie unter

For help with more advanced installations: Comprehensive user guides, online videos and help tools can be

unserer Webadresse oder über den vorstehenden QR-Code.

accessed using the web address or QR code above.

Bitte lesen Sie die dem Umrichter beiliegende Sicherheitsdokumentation, bevor Sie den Umrichter montieren oder

Please read the safety information booklet supplied with the drive before installation or set-up.

in Betrieb nehmen.

It is essential to read Section 4.4 in the

Beim M300 ist unbedingt der Abschnitt 4.2 in der

to using the Safe Torque Oﬀ function in safety systems.

vorstehenden QR-Code hinzuzuziehen, um die Safe Torque Oﬀ-Funktion in Sicherheitssystemen zu verwenden.

HVAC Drive H300 High IP

Step By Step Guide

Frame sizes 3 to 6

www.controltechniques.com/support

H300 User Guide

Steuerung – Kurzanleitung

using the web address or QR code above prior

über die Webadresse bzw. den

Part Number: 0478-0668-01

Issue: 1

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Page 1 HVAC Drive H300 High IP Step By Step Guide Frame sizes 3 to 6 www.controltechniques.com/support Diese Anleitung bietet Informationen für eine schnelle Inbetriebnahme eines einfachen Umrichter-Motor-Systems. This guide provides a fast and simple start-up procedure for a basic drive and motor installation.
Page 2: Table Of Contents
Contents Introduction ................. 2 Check the contents of the box ..........3 Check model and voltage ........... 3 Mount the drive ..............4 Select supply / motor cables and fuses ......7 Wire the drive up ..............9 Use the keypad ..............19 Run the drive for the first time in Hand mode ....
Page 3: Introduction
The following information is available for download at 'www.controltechniques.com/support': • H300 User Guide There is also a guided set-up contained in the software tool Connect available from: https://acim.nidec.com/drives/control-techniques/downloads • H300 Parameter Reference Guide Features of the drive Figure 1-1 Feature diagram for frame sizes 3 to 6...
Page 4: Check The Contents Of The Box
STEP 1: Check the contents of the box Check you have all the components and your drive has not been damaged during transportation. F600-034 00123 A SAFETY KIT BOX* INFORMATION STEP BY STEP GUIDE STEP 2: Check model and voltage The model number can be found on the identification label on the top of the drive.
Page 5: Mount The Drive
STEP 3: Mount the drive The drive should be mounted in an ambient temperature range of - 20 °C to 55 °C (- 4 °F to 131 °F). Output current derating may be required at ambient temperatures > 40 °C (104 °F). Refer to the H300 User Guide (section 5).
Page 6 Figure 3-2 Size 4 High IP Drive and Mounting Hole Dimensions 106.0mm 255.8mm(10.07in) 221mm(8.70in) (4.17in) Ø7.00mm (0.27in) 470.0mm (18.5in) 571.2mm (22.49in) 106.0mm (4.17in) Figure 3-3 Size 5 High IP Drive and Mounting Hole Dimensions Ø7.00mm 110.0mm (0.27in) 255.8mm(10.07in) 221mm(8.70in) (4.33in) 467.0mm (18.38in) 570.7mm...
Page 7 Figure 3-4 Size 6 High IP Drive and Mounting Hole Dimensions 316.68mm(12.46in) 248mm(9.76in) 98.0mm Ø7.00mm 98.0mm (0.27in) (3.85in) (3.85in) 478.0mm (18.81in) 573.9mm (22.59in) 98.0mm 98.0mm (3.85in) (3.85in) H300 High IP Step By Step Guide...
Page 8: Select Supply / Motor Cables And Fuses
STEP 4: Select supply / motor cables and fuses Refer to Appendix B for the ratings for the drives. The supply/motor cables and fuses or MCB’s used should follow the ratings provided in the table below: The voltage rating of fuses must be greater than or equal to the highest supply voltage of the system.
Page 9 Table 4-2 400 V drive ratings, cable sizes and fuse ratings (380 V to 480 V ±10 %) Nominal cable size Max. cont. Fuse Normal Duty input European current Max. Motor Model count. Input Output Input Output power power output @ 400 V @ 400 V Class...
Page 10: Wire The Drive Up
STEP 5: Wire the drive up This step covers connection of input power connection L1,L2, and L3 including the ground terminals, motor phases U V W and the control terminals. The tools required for this are terminal screwdriver, flat screwdriver, M7, M8, M10 and M17 sockets T20 and T25 driver.
Page 11 H300 High IP Step By Step Guide...
Page 12 Figure 6-1 Size 3 power and ground connections H300 High IP Step By Step Guide...
Page 13 Figure 6-2 Size 4 power and ground connections DC Connections Additional ground connection Ground connection AC Connections studs Optional EMC filter Optional line reactor Fuses Motor Optional ground Mains Supply connection supply ground H300 High IP Step By Step Guide...
Page 14 Figure 6-3 Size 5 power and ground connections H300 High IP Step By Step Guide...
Page 15 Figure 6-4 Size 6 power and ground connections H300 High IP Step By Step Guide...
Page 16 Electrochemical corrosion of grounding terminals Ensure that grounding terminals are protected against corrosion i.e. as could be caused by condensation. WARNING The drive must be connected to the system ground of the AC supply. The ground wiring must conform to local regulations and codes of practice. The ground loop impedance must conform to the requirements of local safety regulations.
Page 17 Control connections The control terminals are configured by default for the arrangement shown below: Figure 6-5 H300 control terminal connections Aux 24 V supply 0V common External 24 V supply Analog frequency/speed reference 1 & 2 0V common 4 - 20 mA Input 0V common Single ended...
Page 18 Communications connections The drive offers a 2 wire EIA-485 serial interface located beneath the control terminals, see Figure 6-6 Location of the comms connector below. The drive supports the Modbus RTU protocol as standard. See Table 6-4 for the connection details. Figure 6-6 Location of the comms connector Table 6-4 Serial communication port pin-outs Function...
Page 19 Figure 6-7 KI-485 Adaptor Installation To install, align the KI-485 Adaptor and press gently in the direction shown until it clicks into position. To remove, reverse the installation instructions. IEC cable sizes assume Copper conductor, PVC insulation, Installation method B2 and NOTE ambient temperature of 40 °C (104 °F).
Page 20: Use The Keypad
STEP 6: Use the keypad The keypad display provides information to the user regarding the operating status of the drive, alarms and trip codes. The keypad buttons provide a means for changing parameters, stopping and starting the drive, and the ability to perform a drive reset. Keypad key identifier 1.
Page 21: Run The Drive For The First Time In Hand Mode
Hand / Off / Auto Hand / Off / Auto functions are enabled if Pr 1.052 is set to a non-zero value, otherwise the keypad buttons are allocated as follows: • Blue - Forward/Reverse AUTO • Green - Run • - Reset When Hand / Off / Auto functions are enabled (Pr 1.052 set to either 1, 2 or 3), then the keypad buttons will be allocated as follows:...
Page 22 Ensure Pr 11.031 is set to Open-Loop Open-loop Control Mode Fixed Configure the motor • Set Rated Current Pr 0.020 to the motor rated current in Amps. name plate details. • Set Rated Speed Pr 0.019, the motor rated speed in rpm. •...
Page 23 The drive is able to perform either a stationary or a rotating Autotune autotune. The motor must be at a standstill before an autotune is enabled. A rotating autotune should be used whenever possible so the measured value of power factor of the motor is used by the drive.
Page 24 Set the Hand Mode The Drive's reference frequency by default is set to auto within Pr 1.052 at start up, and the Reference reference by default will come through Analog input terminal T5 (by default set to 4-20 mA) , frequency.
Page 25 RFC - A Sensorless To run the H300 Drive in RFC-A mode will require a mode change as the factory defaults are set for Open Loop Induction Motor. Changing the operating mode Changing the operating mode returns all parameters to their default value, including the motor parameters.
Page 26 Action Detail The drive is able to perform either a stationary or a rotating autotune. The motor must be at a standstill before an autotune is enabled. A stationary autotune will give moderate performance whereas a rotating autotune will give improved performance as it measures the actual values of the motor parameters required by the drive.
Page 27 Run a Permanent-magnet motor in closed-loop sensorless (RFC-S) To run the H300 Drive in RFC-S mode will require a mode change as the factory defaults are set for Open Loop Induction Motor. Before powering up the drive open the Enable/ Safe Torque Off input T29, and all run signals, so that the drive powers up in the Inhibit State.
Page 28 Saving parameters When changing a parameter in Menu 0, the new value is saved when pressing the Enter button to return to parameter view mode from parameter edit mode. If parameters have been changed in the advanced menus, then the change will not be saved automatically.
Page 29 Configure If the Motor requires thermal protection the H300 Drives has the following Thermistor types Motor Thermal programmed within parameter P0.029 Analog Input 2 Thermistor Type. Protection. DIN44082 (Default) KTY84 PT100 PT1000 PT2000 NI1000 Parameter P0.027 Analog Input 2 Mode will need to be set to either of the following as required by the application.
Page 30 Autotune he drive is able to perform either a stationary or a rotating autotune. The motor must be at a standstill before an autotune is enabled. A rotating autotune should be used whenever possible so the measured value of power factor of the motor is used by the drive. A rotating autotune will cause the motor to accelerate up to base speed in the direction...
Page 31 Start the motor in Make sure it is safe to run the motor. Press the Green HAND button, the drive will start and Hand mode. the motor will accelerate to the hand speed reference which is nominally the minimum clamp frequency setting.
Page 32: Running The Drive In Auto Mode
STEP 8: Running the drive in Auto mode This section gives guidance on how to get running in Auto mode . By default the drive is set via Pr1.052 to Auto (1). Action Detail Enable the drive Close the Enable or Safe Torque off input to the drive. O f f r p m Start the motor in...
Page 33: Additional Information
Additional Information Restoring drive defaults Restoring parameter defaults by this method saves the default values in the drives memory. User security status (00.031) and User security code (00.030) are not affected by this procedure). Procedure 1. Ensure the drive is not enabled, i.e. terminal 29 is open or Pr 06.015 is OFF (0) 2.
Page 34 Range Default Parameter RFC-A RFC-S RFC-A RFC-S Dynamic V to F Off (0) or {05.013} On (1) Select On (1) Speed Controller 00.015 0.00 to 655.35 Integral {03.011} 0.10 s /rad Feedback Gain /rad Ki 1 Low Frequency {05.015} 0.0 to 25.0 % 1.0 % Voltage Boost Speed Controller...
Page 35 Range Default Parameter RFC-A RFC-S RFC-A RFC-S User Security Menu 0 (0), All Menus (1), Read-only Menu 0 (2), 00.031 {11.044} Menu 0 (0) Status Read-only (3), Status Only (4), No Access (5) NV Media Card 00.032 Data Previously {11.036} 0 to 999 Loaded Parameter...
Page 36 Range Default Parameter RFC-A RFC-S RFC-A RFC-S 00.059 Trip 9 {10.029} 0 to 255 00.060 Trip 0 Date {10.041} 00-00-00 to 31-12-99 00.061 Trip 0 Time {10.042} 00:00:00 to 23:59:59 00.062 Trip 1 Date {10.043} 00-00-00 to 31-12-99 00.063 Trip 1 Time {10.044} 00:00:00 to 23:59:59 00.064 Trip 2 Date...
Page 37: Ul Information
Appendix A UL information UL file reference These products are cUL Listed to Canadian and US requirements. UL file reference is: NMMS/7 E171230. Products that incorporate the Safe Torque Off (STO) function are Certified for Functional Safety. UL file reference: FSPC E171230. Operating environment Pollution Degree Products must be installed in a Pollution Degree 2 environment or better (dry, non-conductive...
Page 38 Electrical Installation Overvoltage category Drives have been evaluated for OVC III Branch circuit Protection Branch circuit protection must be provided in accordance with the National Electrical Code (NEC), The Canadian Electrical Code, and any additional local codes. The recommended fuses are specified within this guide. Opening of branch circuit protective device The opening of the branch-circuit protective device may be an indication that a fault has been interrupted.
Page 39 A.13 AC supply, AC supply fuses and short circuit current rating (SCCR) Frame sizes 3 & 4 Suitable for use on a circuit capable of delivering not more than 100,000 RMS symmetrical Amperes, 480 Volts AC maximum when protected by the specified fuses. UL Listed closed-loop connectors sized according to the field wiring shall be used for grounding connections.
Page 40: Leroy Somer Permanent Magnet Motor Data
Appendix B Leroy Somer permanent magnet motor data H300 High IP Step By Step Guide...
Page 41 H300 High IP Step By Step Guide...
Page 42 Company information Nidec Control Techniques Limited. Registered Office: The Gro, Newtown, Powys SY16 3BE. Registered in England and Wales. Company Reg. No. 01236886. Moteurs Leroy-Somer SAS. Headquarters: Bd Marcellin Leroy, CS 10015, 16915 Angoulême Cedex 9, France. Share Capital: 65 800 512 €, RCS Angoulême 338567258.

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