NXS Form 63-2600, Users Manual, Technical Data - CONTROL ...

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124 Description of Parameters Honeywell 3 The frequency drive starts to search for the minimum motor current in order to save energy, lower the disturbance level and the noise. This function can be used in applications with constant motor load, such as fans, pumps etc. 109 U/f optimisation (2.13, 2.6.2) Automatic torque boost EXAMPLE: The voltage to the motor changes automatically which makes the motor produce sufficient torque to start and run at low frequencies. The voltage increase depends on the motor type and power. Automatic torque boost can be used in applications where starting torque due to starting friction is high, e.g. in conveyors. What changes are required to start with load from 0 Hz ♦ First set the motor nominal values (Parameter group 2.1). Option 1: Activate the Automatic torque boost. Option 2: Programmable U/f curve To get torque you need to set the zero point voltage and midpoint voltage/frequency (in parameter group 2.6) so that the motor takes enough current at low frequencies. First set par. ID108 to Programmable U/f curve (value 2). Increase zero point voltage (ID606) to get enough current at zero speed. Set then the midpoint voltage (ID605) to 1.4142*ID606 and midpoint frequency (ID604) to value ID606/100%*ID111. NOTE! In high torque – low speed applications – it is likely that the motor will overheat. If the motor has to run a prolonged time under these conditions, special attention must be paid to cooling the motor. Use external cooling for the motor if the temperature tends to rise too high. 110 Nominal voltage of the motor (2.6, 2.1.6) Find this value U n on the rating plate of the motor. This parameter sets the voltage at the field weakening point (ID603) to 100% * U nMotor . Note also used connection Delta/Star. 111 Nominal frequency of the motor (2.7, 2.1.7) Find this value f n on the rating plate of the motor. This parameter sets the field weakening point (ID602) to the same value. 112 Nominal speed of the motor (2.8, 2.1.8) Find this value n n on the rating plate of the motor. 113 Nominal current of the motor (2.9, 2.1.9) Find this value I n on the rating plate of the motor. Automation and Control Solutions Honeywell Honeywell Limited-Honeywell Limitée 1985 Douglas Drive North 35 Dynamic Drive Golden Valley, MIN 55422 Scarborough, Ontario 63-2600-1 MIV 4Z9 www.honeywell.com
Honeywell Description of Parameters 125 117 I/O frequency reference selection 12346 (2.14, 2.1.11) Defines which frequency reference source is selected when controlled from the I/O control place. Applic. 1 to 4 6 Sel. 0 Analogue volt.ref. Analogue volt. ref. Terminals 2-3 Terminals 2-3 1 Analogue curr.ref. Analogue curr.ref. Terminals 4-5 Terminals 4-5 2 Keypad reference (Menu M3) AI1+AI2 3 Fieldbus reference AI1–AI2 4 AI2–AI1 5 AI1*AI2 6 AI1 joystick 7 AI2 joystick 8 Keypad reference (Menu M3) 9 Fieldbus reference 10 Potentiometer reference; controlled with DIN5 (TRUE=increase) and DIN6 (TRUE=decrease) 11 AI1 or AI2, whichever is lower 12 AI1 or AI2, whichever is greater 13 Max. frequency (recommended in torque control only) 14 AI1/AI2 selection 15 Encoder 1 16 Encoder 2 (With OPT-A7 Speed Synchronization, NXP only) Table 8-2. Selections for parameter ID117 118 PID controller gain 57 (2.1.12) This parameter defines the gain of the PID controller. If the value of the paramter is set to 100% a change of 10% in the error value causes the controller output to change by 10%. If the parameter value is set to 0 the PID controller operates as ID-controller. See examples on page 127. 119 PID controller I-time 57 (2.1.13) The parameter ID119 defines the integration time of the PID controller. If this parameter is set to 1,00 second a change of 10% in the error value causes the controller output to change by 10.00%/s. If the parameter value is set to 0.00 s the PID controller will operate as PD controller. See examples on page 127. 120 Motor cos phi (2.10, 2.1.10) Find this value “cos phi” on the rating plate of the motor. Automation and Control Solutions Honeywell Honeywell Limited-Honeywell Limitée 1985 Douglas Drive North 35 Dynamic Drive Golden Valley, MIN 55422 Scarborough, Ontario 63-2600-1 MIV 4Z9 www.honeywell.com
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NX Series Constant and Variable Tor
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CONTENTS NX USER’S MANUAL INDEX 1
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NX User's Manual Index 1. SAFETY...
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1 6(110) Safety 1. SAFETY ONLY A CO
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8(110) DIRECTIVES 2. DIRECTIVES 2.1
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10(110) DIRECTIVES We Manufacturer'
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3 12(110) Receipt of shipment We Ma
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3 14(110) Receipt of shipment 3.3 M
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16(110) Technical data The control
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18(110) Technical data 4.2.2 NX_6 -
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20(110) Technical data 4.3 Brake re
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22(110) Technical data 4.4 Technica
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5 24(110) Installation 5. INSTALLAT
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5 26(110) Installation W2 H4 D1 D2
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5 28(110) Installation W4 W2 H7 H6
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5 30(110) Installation Ø D1 D2 H4
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5 32(110) Installation W4 Type plat
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5 34(110) Installation 5.2 Cooling
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5 36(110) Installation 5.3 Power lo
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5 38(110) Cabling and connections 5
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40(110) Cabling and connections 6.
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42(110) Cabling and connections 6.1
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64(110) Cabling and connections 10V
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66(110) Cabling and connections OPT
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68(110) Cabling and connections Jum
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7 70(110) Control keypad 4 5 6 READ
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7 72(110) Control keypad 7.2 Keypad
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7 74(110) Control keypad RE ADY I/O
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7 76(110) Control keypad 7.3.2 Para
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7 78(110) Control keypad 7.3.3 Keyp
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7 80(110) Control keypad NOTE! Ther
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7 82(110) Control keypad 7.3.4.2 Fa
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7 84(110) Control keypad 50 Analog
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7 86(110) Control keypad 7.3.6 Syst
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7 88(110) Control keypad T6.8.2.2 C
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7 90(110) Control keypad STOP I/Ote
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7 92(110) Control keypad Automatic
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7 94(110) Control keypad Note! Stor
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7 96(110) Control keypad Default pa
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7 98(110) Control keypad READY READ
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7 100(110) Control keypad STOP READ
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7 102(110) Control keypad READY REA
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7 104(110) Control keypad 7.4 Furth
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106(110) Commissioning 6 Connect th
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108(110) Fault tracing 9. FAULT TRA
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110(110) Fault tracing 43 Encoder f
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NX Series Constant and Variable Tor
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2 Honeywell ABOUT THE "All in One"
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4 Honeywell 9.1 External brake cont
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6 Basic Application Honeywell 1.2 C
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8 Basic Application Honeywell 1.4 B
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10 Basic Application Honeywell 1.4.
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12 Standard Application Honeywell 2
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22 Local/Remote Control Application
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36 Multi-step Speed Application Hon
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48 PID Control Application Honeywel
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62 Multi-purpose Control Applicatio
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174 Description of Parameters Honey
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210 Appendices Honeywell 9. APPENDI
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212 Appendices Honeywell 9.2 Closed
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Automation and Control Solutions Ho
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