Table of Contents
Advertisement
оссия: www.eleris.ru | e-mail: elpsk@bk.ru
Industrial Automation Headquarters
Delta Electronics, Inc.
Taoyuan Technology Center
No.18, Xinglong Rd., Taoyuan City,
Taoyuan County 33068, Taiwan
TEL: 886-3-362-6301 / FAX: 886-3-371-6301
Asia
Delta Electronics (Jiangsu) Ltd.
Wujiang Plant 3
1688 Jiangxing East Road,
Wujiang Economic Development Zone
Wujiang City, Jiang Su Province,
People's Republic of China (Post code: 215200)
TEL: 86-512-6340-3008 / FAX: 86-769-6340-7290
Delta Greentech (China) Co., Ltd.
238 Min-Xia Road, Pudong District,
ShangHai, P.R.C.
Post code : 201209
TEL: 86-21-58635678 / FAX: 86-21-58630003
Delta Electronics (Japan), Inc.
Tokyo Office
2-1-14 Minato-ku Shibadaimon,
Tokyo 105-0012, Japan
TEL: 81-3-5733-1111 / FAX: 81-3-5733-1211
Delta Electronics (Korea), Inc.
1511, Byucksan Digital Valley 6-cha, Gasan-dong,
Geumcheon-gu, Seoul, Korea, 153-704
TEL: 82-2-515-5303 / FAX: 82-2-515-5302
Delta Electronics Int'l (S) Pte Ltd
4 Kaki Bukit Ave 1, #05-05, Singapore 417939
TEL: 65-6747-5155 / FAX: 65-6744-9228
Delta Electronics (India) Pvt. Ltd.
Plot No 43 Sector 35, HSIIDC
Gurgaon, PIN 122001, Haryana, India
TEL : 91-124-4874900 / FAX : 91-124-4874945
Americas
Delta Products Corporation (USA)
Raleigh Office
P.O. Box 12173,5101 Davis Drive,
Research Triangle Park, NC 27709, U.S.A.
TEL: 1-919-767-3800 / FAX: 1-919-767-8080
Delta Greentech (Brasil) S.A
Sao Paulo Office
Rua Itapeva, 26 - 3° andar Edificio Itapeva One-Bela Vista
01332-000-São Paulo-SP-Brazil
TEL: +55 11 3568-3855 / FAX: +55 11 3568-3865
Europe
Delta Electronics (Netherlands) B.V.
Eindhoven Office
De Witbogt 20, 5652 AG Eindhoven, The Netherlands
TEL: +31 (0)40-8003800 / FAX: +31 (0)40-8003898
*We reserve the right to change the information in this catalogue without prior notice.
*We reserve the right to change the information in this user manual without prior notice.
Delta Fan and Pump Drive
CFP2000 Series User Manual
ч стотники.рф | www.eleris.ru | e-mail: elpsk@bk.ru
Advertisement
Table of Contents
Subscribe to Our Youtube Channel
Related Manuals for Delta VFD007FP4EA-41
Summary of Contents for Delta VFD007FP4EA-41
- Page 1 1511, Byucksan Digital Valley 6-cha, Gasan-dong, Geumcheon-gu, Seoul, Korea, 153-704 Delta Fan and Pump Drive TEL: 82-2-515-5303 / FAX: 82-2-515-5302 Delta Electronics Int’l (S) Pte Ltd CFP2000 Series User Manual 4 Kaki Bukit Ave 1, #05-05, Singapore 417939 TEL: 65-6747-5155 / FAX: 65-6744-9228 Delta Electronics (India) Pvt.
- Page 2 PLEASE READ PRIOR TO INSTALLATION FOR SAFETY. AC input power must be disconnected before any wiring to the AC motor drive is made. Even if the power has been turned off, a charge may still remain in the DC-link capacitors with hazardous voltages before the POWER LED is OFF. Please do not DANGER touch the internal circuit and components.
-
Page 3: Table Of Contents
Table of Contents CHAPTER 1 INTRODUCTION ....................... 1-1 ....................1-1 1-1 Receiving and Inspection .....................1-1 1-2 Nameplate Information ........................1-2 1-3 Model Name .........................1-2 1-4 Serial Number ........................1-3 1-5 RFI Jumper ........................1-7 1-6 Dimensions CHAPTER 2 INSTALLATION ....................... 2-1 ..............2-1 2-1 Minimum Mounting Clearance and Installation .....................2-2 2-2 Minimum mounting clearance CHAPTER 3 UNPACKING ........................ - Page 4 ........................7-12 7-6 EMC Filter .......................7-16 7-7 Panel Mounting .........................7-18 7-8 Fan Kit ............7-29 7-9 USB/RS-485 Communication Interface IFD6530…. CHAPTER 8 OPTION CARDS ....................... 8-1 ......................8-2 8-1 Removed key cover..............8-3 8-2 Screws Specification for option card terminals........................8-8 8-3 EMC-D42A........................8-8 8-4 EMC-D611A..
- Page 5 CHAPTER 16 PLC FUNCTION ......................16-1 CHAPTER 17 SAFETY TORQUE OFF FUNCTION………………………………………………………….17-1...
-
Page 6: Chapter 1 Introduction
Chapter 1 Introduction|CFP2000 Series Chapter 1 Introduction 1-1 Receiving and Inspection After receiving the AC motor drive, please check for the following: Please inspect the unit after unpacking to assure it was not damaged during shipment. Make sure that the part number printed on the package corresponds with the part number indicated on the nameplate. -
Page 7: Model Name
Chapter 1 Introduction|CFP2000 Series 1-3 Model Name 1-4 Serial Number... -
Page 8: Rfi Jumper
Chapter 1 Introduction|CFP2000 Series 1-5 RFI Jumper RFI Jumper: The AC motor drive may emit the electrical noise. The RFI jumper is used to suppress the interference (Radio Frequency Interference) on the power line. Frame A RFI-1 RFI-2 RFI-1 RFI-1 RFI-2 RFI-2... - Page 9 Chapter 1 Introduction|CFP2000 Series Frame B RFI-1 RFI-2 RFI-1 RFI-2 RFI-1 RFI-2...
- Page 10 Chapter 1 Introduction|CFP2000 Series Frame C By switching the position of the RFI jumper to control On/ Off. RFI-2 RFI-1...
- Page 11 Chapter 1 Introduction|CFP2000 Series Frame D0 By switching the position of the RFI jumper to control On/ Off. RFI-1 RFI-2...
- Page 12 Chapter 1 Introduction|CFP2000 Series Frame D By switching the position of the RFI jumper to control On/ Off. RFI-1 RFI-2...
- Page 13 Note 2: Using a LCB (leakage circuit breaker) designed for motor drive is recommended. If a LCB has tripped, remove the RFI-2 (jumper/ screw) or contact an authorized dealer of Delta near you. Note 3: Earthing Systems The international standard IEC60364 distinguishes three different earthing system categories, using the two-letter codes TN, TT, IT.
- Page 14 Chapter 1 Introduction|CFP2000 Series When installing multiple sets of Power Regenerative Units, do not connect the grounds of the Power Regenerative Units in series. As shown below Ground terminal Best wiring setup for ground wires Pay particular attention to the following points: After turning on the main power, do not remove the RFI jumper while the power is on.
- Page 15 Chapter 1 Introduction|CFP2000 Series 1 Grounding at a corner in a triangle configuration 2 Grounding at a midpoint in a polygonal configuration 3 Grounding at one end in a single-phase 4 No stable neutral grounding in a three-phase configuration autotransformer configuration RFI jumper can be used Internal grounding through RFI capacitor, which reduces electromagnetic radiation.
-
Page 16: Dimensions
Chapter 1 Introduction|CFP2000 Series 1-6 Dimensions Frame A A-1: VFD007FP4EA-52, VFD015FP4EA-52, VFD022FP4EA-52, VFD037FP4EA-52, VFD040FP4EA-52, VFD055FP4EA-52, VFD075FP4EA-52, Unit: mm [inch] Φ1 Φ2 Φ3 Frame 161.0 135.0 366.4 356.0 199.0 25.4 20.3 20.3 [6.34] [5.31] [14.43] [14.02] [7.83] [0.26] [1.00] [0.80] [0.80] 1-11... - Page 17 Chapter 1 Introduction|CFP2000 Series Frame A A-2: VFD007FP4EA-52S, VFD015FP4EA-52S, VFD022FP4EA-52S, VFD037FP4EA-52S, VFD040FP4EA-52S, VFD055FP4EA-52S, VFD075FP4EA-52S Unit: mm [inch] Φ1 Φ2 Φ3 Frame 161.0 135.0 366.4 356.0 244.0 199.0 25.4 20.3 20.3 [6.34] [5.31] [14.43] [14.02] [9.61] [7.83] [0.26] [1.00] [0.80] [0.80] 1-12...
- Page 18 Chapter 1 Introduction|CFP2000 Series Frame A A-3: VFD007FP4EA-41, VFD015FP4EA-41, VFD022FP4EA-41, VFD037FP4EA-41, VFD040FP4EA-41, VFD055FP4EA-41, VFD075FP4EA-41 Unit: mm [inch] Φ1 Φ2 Φ3 Frame 161.0 135.0 366.4 356.0 199.0 25.4 20.3 [6.34] [5.31] [14.43] [14.02] [7.83] [0.26] [1.00] [0.80] 1-13...
- Page 19 Chapter 1 Introduction|CFP2000 Series Frame B B-1: VFD110FP4EA-52, VFD150FP4EA-52, VFD185FP4EA-52, VFD220FP4EA-52, Unit: mm [inch] Φ1 Φ2 Φ3 Frame 261.0 181.0 491.4 479.0 229.0 41.0 25.4 20.3 [8.50] [7.13] [19.35] [18.86] [9.02] [0.33] [1.61] [1.00] [0.80] 1-14...
- Page 20 Chapter 1 Introduction|CFP2000 Series Frame B B-2: VFD110FP4EA-52S, VFD150FP4EA-52S, VFD185FP4EA-52S, VFD220FP4EA-52S Unit: mm [inch] Φ1 Φ2 Φ3 Frame 261.0 181.0 491.4 479.0 274.0 229.0 41.0 25.4 20.3 [8.50] [7.13] [19.35] [18.86] [10.79] [9.02] [0.33] [1.61] [1.00] [0.80] 1-15...
- Page 21 Chapter 1 Introduction|CFP2000 Series Frame B B-3: VFD110FP4EA-41, VFD150FP4EA-41, VFD185FP4EA-41, VFD220FP4EA-41 Unit: mm [inch] Φ1 Φ2 Φ3 Frame 216.0 181.0 491.4 479.0 229.0 41.8 28.0 22.0 [8.50] [7.13] [19.35] [18.86] [9.02] [0.33] [1.65] [1.10] [0.87] 1-16...
- Page 22 Chapter 1 Introduction|CFP2000 Series Frame C C-1: VFD300FP4EA-52, VFD370FP4EA-52 Unit: mm [inch] Frame 282.0 231.0 271.0 630.0 611.0 602.5 265.0 [11.10] [9.09] [10.67] [24.8] [24.06] [23.72] [10.43] Φ1 Φ2 Φ3 Φ4 Frame 27.8 16.0 51.0 41.0 25.4 20.3 [1.09] [0.35] [0.63] [2.01] [1.61]...
- Page 23 Chapter 1 Introduction|CFP2000 Series Frame C C-2: VFD300FP4EA-52S, VFD370FP4EA-52S Unit: mm [inch] Frame 282.0 231.0 271.0 630.0 611.0 602.5 310.0 265.0 [11.10] [9.09] [10.67] [24.8] [24.06] [23.72] [12.20] [10.43] Φ1 Φ2 Φ3 Φ4 Frame 27.8 16.0 51.0 41.0 25.4 20.3 [1.09] [0.35] [0.63]...
- Page 24 Chapter 1 Introduction|CFP2000 Series Frame C C-3: VFD300FP4EA-41, VFD370FP4EA-41 Unit: mm [inch] Frame 282.0 231.0 271.0 630.0 611.0 602.5 265.0 [11.10] [9.09] [10.67] [24.80] [24.06] [23.72] [10.43] Φ1 Φ2 Φ3 Φ4 Frame 27.8 16.0 51.0 34.0 28.0 22.0 [1.09] [0.35] [0.63] [2.01] [1.34]...
- Page 25 Chapter 1 Introduction|CFP2000 Series Frame D0 D0-1: VFD450FP4EA-52, VFD550FP4EA-52 Unit: mm [inch] Frame 308.0 272.0 680.0 651.0 622.0 307.0 D0-1 [12.13] [10.71] [26.77] [25.63] [24.49] [12.09] Φ1 Φ2 Φ3 Φ4 Frame 17.0 13.0 18.0 51.0 41.0 25.4 20.3 D0-1 [0.67] [0.51] [0.71] [2.01]...
- Page 26 Chapter 1 Introduction|CFP2000 Series Frame D0 D0-2: VFD450FP4EA-52S, VFD550FP4EA-52S Unit: mm [inch] Frame 308.0 272.0 680.0 651.0 622.0 352.0 307.0 D0-2 [12.13] [10.71] [26.77] [25.63] [24.49] [13.86] [12.09] Φ1 Φ2 Φ3 Φ4 Frame 17.0 13.0 18.0 51.0 41.0 25.4 20.3 D0-2 [0.67] [0.51]...
- Page 27 Chapter 1 Introduction|CFP2000 Series Frame D0 D0-3: VFD450FP4EA-41, VFD550FP4EA-41 Unit: mm [inch] Frame 308.0 272.0 680.0 651.0 622.0 307.0 D0-3 [12.13] [10.71] [26.77] [25.63] [24.49] [12.09] Φ1 Φ2 Φ3 Φ4 Frame 17.0 13.0 18.0 51.0 44.0 28.0 22.0 D0-3 [0.67] [0.51] [0.71] [2.01]...
- Page 28 Chapter 1 Introduction|CFP2000 Series Frame D D-1: VFD750FP4EA-52, VFD900FP4EA-52 Unit: mm [inch] Frame 370.0 334.0 770.0 739.0 707.0 335.0 [14.57] [13.15] [30.31] [29.09] [27.83] [13.19] Φ1 Φ2 Φ3 Φ4 Frame 17.0 13.0 18.0 64.0 51.0 25.4 20.3 [0.67] [0.51] [0.71] [2.52] [2.01] [1.00]...
- Page 29 Chapter 1 Introduction|CFP2000 Series Frame D D-2: VFD750FP4EA-52S, VFD900FP4EA-52S Unit: mm [inch] Frame 370.0 334.0 770.0 739.0 707.0 380.0 335.0 [14.57] [13.15] [30.31] [29.09] [27.83] [14.96] [13.19] Φ1 Φ2 Φ3 Φ4 Frame 17.0 13.0 18.0 64.0 51.0 25.4 20.3 [0.67] [0.51] [0.71] [2.52]...
- Page 30 Chapter 1 Introduction|CFP2000 Series Frame D D-3: VFD750FP4EA-41, VFD900FP4EA-41 Unit: mm [inch] Frame 370.0 334.0 770.0 739.0 707.0 335.0 [14.57] [13.15] [30.31] [29.09] [27.83] [13.19] Φ1 Φ2 Φ3 Φ4 Frame 17.0 13.0 18.0 62.0 28.0 22.0 [0.67] [0.51] [0.71] [2.44] [1.10] [0.87] 1-25...
- Page 31 Chapter 1 Introduction|CFP2000 Series Digital Keypad KPC-CC02 72.0[2.83] 15.0[0.59] 1-26...
-
Page 32: Chapter 2 Installation
Chapter 2 Installation|CFP2000 Series Chapter 2 Installation 2-1 Minimum Mounting Clearance and Installation NOTE Prevent fiber particles, scraps of paper, shredded wood saw dust, metal particles, etc. from adhering to the heat sink Install the AC motor drive in a metal cabinet. When installing one drive below another one, use a metal separation between the AC motor drives to prevent mutual heating and to prevent the risk of fire accident. -
Page 33: Minimum Mounting Clearance
(As shown in the figure below) Ta=50℃ 2-2 Minimum mounting clearance Frame A (mm) B (mm) C (mm) D (mm) VFD007FP4EA-41, VFD007FP4EA-52, VFD007FP4EA-52S, VFD015FP4EA-41, VFD015FP4EA-52, VFD015FP4EA-52S, VFD022FP4EA-41,VFD022FP4EA-52, VFD022FP4EA-52S, Frame A VFD037FP4EA-41,VFD037FP4EA-52, VFD037FP4EA-52S, VFD040FP4EA-41,VFD040FP4EA-52, VFD040FP4EA-52S, VFD055FP4EA-41,VFD055FP4EA-52, VFD055FP4EA-52S, VFD075FP4EA-41, VFD075FP4EA-52, VFD075FP4EA-52S... - Page 34 Power Dissipation (watt) External Internal Total Loss External Internal Total VFD007FP4EA-41/ 52 / 52S VFD015FP4EA-41/ 52 / 52S VFD022FP4EA-41/ 52 / 52S VFD037FP4EA-41/ 52 / 52S VFD040FP4EA-41/ 52 / 52S VFD055FP4EA-41/ 52 / 52S VFD075FP4EA-41/ 52 / 52S VFD110FP4EA-41/ 52 / 52S...
- Page 35 Chapter 2 Installation|CFP2000 Series When installing the multiple When installing the multiple drives, ※ ※ drives, the required air volume of heat dissipation should volume should be the be the heat dissipated for single required air volume for drive X the number of the drives. single drive X the number of the drives.
-
Page 36: Chapter 3 Unpacking
Chapter 3 Unpacking|CFP2000 Series Chapter 3 Unpacking The AC motor drive should be kept in the shipping carton or crate before installation. In order to retain the warranty coverage, the AC motor drive should be stored properly when it is not to be used for an extended period of time. - Page 37 Chapter 3 Unpacking|CFP2000 Series Loosen the 5 screws that fastened on the pallet. Lifting up the drive by using hooks through the holes.
- Page 38 Chapter 3 Unpacking|CFP2000 Series Frame D VFD750FP4EA-41,VFD750FP4EA-52, VFD750FP4EA-52S, VFD900FP4EA-41,VFD900FP4EA-52, VFD900FP4EA-52S 1. Removing the 6 clips by slotted screwdriver. 2. Removing the cover of wood box and then taking out the EPE tray and user manual.
- Page 39 Chapter 3 Unpacking|CFP2000 Series 3. Loosen the 5 screws that fastened on the pallet. 4. Lifting up the drive by using hooks through the holes.
-
Page 40: The Lifting Hook
Chapter 3 Unpacking|CFP2000 Series 3-2 The Lifting Hook The arrows indicate the location of the lifting holes, as shown in figure below: Frame D0 Frame D Ensure the lifting hook properly goes through the lifting hole, as shown in the following diagram. - Page 41 Chapter 3 Unpacking|CFP2000 Series Ensure the angle between the lifting holes and the lifting device is within the specification, as shown in the following figure.
- Page 42 Chapter 3 Unpacking|CFP2000 Series Weight VFDXXXFP4EA-52 VFDXXXFP4EA-52S Frame 41.5 kg (91.4 Ibs.) 41.7 kg (91.9 Ibs.) 59.0 kg (130.0 Ibs.) 60.2 kg (132.6 Ibs.)
- Page 43 Chapter 3 Unpacking|CFP2000 Series [The page intentionally left blank]...
-
Page 44: Chapter 4 Wiring
Chapter 4 Wiring|CFP2000 Series Chapter 4 Wiring After removing the front cover, examine if the power and control terminals are clearly noted. Please read following precautions before wiring. It is crucial to turn off the AC motor drive power before any wiring installations are made. -
Page 45: Wiring
Chapter 4 Wiring|CFP2000 Series 4-1 Wiring... - Page 46 Chapter 4 Wiring|CFP2000 Series *MI8 can input 33 kHz pulses. *Do NOT apply the mains voltage directly to above terminals.
- Page 47 Chapter 4 Wiring|CFP2000 Series SINK(NPN)/SOURCE(PNP)Mode Sink Mode Sourc e Mode with internal power (+24VD C) w ith internal power (+24VDC) +2 4V internal c irc ui t +2 4V internal c irc ui t Sink Mode Sourc e Mode with external power with external power +2 4V +2 4V...
-
Page 48: System Wiring Diagram
Chapter 4 Wiring|CFP2000 Series 4-2 System Wiring Diagram Power input terminal Please supply power according to the rated Power input power specifications indicated in the manual terminal (refer to 9 Specifications Table). NFB or fuse There may be a large inrush current during NFB or fuse power on. - Page 49 Chapter 4 Wiring|CFP2000 Series 4-3 Wiring Plate Diagram Frame A Frame B Screw torque: Screw torque: 1~4: 14~16kg-cm 1~4: 14~16kg-cm 5: 6~8kg-cm 5: 6~8kg-cm Frame C Screw torque: 1~6: 12~15kg-cm 7~8: 12~15kg-cm...
- Page 50 Chapter 4 Wiring|CFP2000 Series Basic Waterproof Component Wiring Diagram Frame A Frame B...
- Page 51 Chapter 4 Wiring|CFP2000 Series Frame C/D0 Frame D...
-
Page 52: Chapter 5 Main Circuit Terminals
W/T3 on the AC motor drive. Please use inductance filter. Do not use phase-compensation capacitors or L-C (Inductance-Capacitance) or R-C (Resistance-Capacitance), unless approved by Delta. Use well-insulated motor, suitable for inverter operation. Note down the rated data and the torque force of the wiring when the output terminal is below 75 ℃... -
Page 53: Main Circuit Diagram
Chapter 5 Main Circuit Terminals|CFP2000 Series Brak e re sistor (optional) Brak e re sistor (optional) Brak e un it VFDB (o ption al) The external brake resistor of Frame A, B and C should connect to the terminals (B1, B2) of AC motor drives. For those models without built-in brake resistor, please connect external brake unit and brake resistor (both of them are optional) to increase brake torque. - Page 54 Chapter 5 Main Circuit Terminals|CFP2000 Series Terminals Descriptions R/L1, S/L2, T/L3 AC line input terminals 3-phase U/T1, V/T2, W/T3 AC drive output terminals for connecting 3-phase induction motor Connections for brake unit (VFDB series) ( ≦ 30kW, built-in brake unit) +1/DC+, -/DC- Common DC Bus B1, B2...
-
Page 55: Main Circuit Terminals
UL. Do not reduce the wire gauge when using higher temperature wire. R/L1, S/L2, T/L3, U/T1, V/T2, W/T3, B1, B2, Models Max. Wire Gauge Min. Wire Gauge Torque VFD007FP4EA-41/52 M3.5 VFD015FP4EA-41/52 12 AWG 10kg-cm VFD022FP4EA-41/52 [3.3mm... - Page 56 Chapter 5 Main Circuit Terminals|CFP2000 Series Frame A Main circuit terminals: If you install at Ta 40°C above environment, please select copper wire which have voltage rating 600V and temperature resistant 90°C or above. If you install at Ta 40°C environment, please select copper wire which have voltage rating 600V and temperature resistant 75°C or 90°C.
- Page 57 Chapter 5 Main Circuit Terminals|CFP2000 Series Frame B Main circuit terminals: If you install at Ta 40°C above environment, please select copper wire which have voltage rating 600V and temperature resistant 90°C or above. If you install at Ta 40°C environment, please select copper wire which have voltage rating 600V and temperature resistant 75°C or 90°C.
- Page 58 Chapter 5 Main Circuit Terminals|CFP2000 Series Frame B Main circuit terminals: If you install at Ta 40°C above environment, please select copper wire which have voltage rating 600V and temperature resistant 90°C or above. If you install at Ta 40°C environment, please select copper wire which have voltage rating 600V and temperature resistant 75°C or 90°C.
- Page 59 Chapter 5 Main Circuit Terminals|CFP2000 Series Frame C Main circuit terminals: If you install at Ta 40°C above environment, please select copper wire which have voltage rating 600V and temperature resistant 90°C or above. If you install at Ta 40°C environment, please select copper wire which have voltage rating 600V and temperature resistant 75°C or 90°C.
- Page 60 Chapter 5 Main Circuit Terminals|CFP2000 Series Frame C Main circuit terminals: If you install at Ta 40°C above environment, please select copper wire which have voltage rating 600V and temperature resistant 90°C or above. If you install at Ta 40°C environment, please select copper wire which have voltage rating 600V and temperature resistant 75°C or 90°C.
- Page 61 Chapter 5 Main Circuit Terminals|CFP2000 Series Frame D0 Main circuit terminals: If you install at Ta 35°C above environment, please select copper wire which have voltage rating 600V and temperature resistant 90°C or above. If you install at Ta 35°C environment, please select copper wire which have voltage rating 600V and temperature resistant 75°C or 90°C.
- Page 62 Chapter 5 Main Circuit Terminals|CFP2000 Series Frame D0 Main circuit terminals: If you install at Ta 35°C above environment, please select copper wire which have voltage rating 600V and temperature resistant 90°C or above. If you install at Ta 35°C environment, please select copper wire which have voltage rating 600V and temperature resistant 75°C or 90°C.
- Page 63 Chapter 5 Main Circuit Terminals|CFP2000 Series Frame D Main circuit terminals: If you install at Ta 30°C above environment, please select copper wire which have voltage rating 600V and temperature resistant 90°C or above. If you install at Ta 30°C environment, please select copper wire which have voltage rating 600V and temperature resistant 75°C or 90°C.
- Page 64 Chapter 5 Main Circuit Terminals|CFP2000 Series Frame D Main circuit terminals: If you install at Ta 30°C above environment, please select copper wire which have voltage rating 600V and temperature resistant 90°C or above. If you install at Ta 30°C environment, please select copper wire which have voltage rating 600V and temperature resistant 75°C or 90°C.
- Page 65 Chapter 5 Main Circuit Terminals|CFP2000 Series [The page intentionally left blank] 5-14...
- Page 66 Chapter 6 Control Terminals|CFP2000 Series Chapter 6 Control Terminals 6-1 Remove the cover for wiring Please remove the top cover before wiring the multi-function input and output terminals, The drive appearances shown in the figures are for reference only, a real drive may look different. Remove the cover for wiring.
- Page 67 Chapter 6 Control Terminals|CFP2000 Series Frame D0&D Screw torque: 14~16Kg-cm [12.1~13.9lb-in.] 1) Remove the keypad. (As shown in figure 2) 2) Loosen the screws and press the tabs on both sides to remove the cover. (As shown in figure 3) Figure 1 Figure 2 Figure 3...
-
Page 68: Specifications Of Control Terminal
Chapter 6 Control Terminals|CFP2000 Series 6-2 Specifications of Control Terminal Wire Gauge: 26~16AWG (0.1281-1.318mm Ⓐ Torque: 5kg-cm [4.3Ib-in.] (0.49 Nm) (As shown in figure above) Ⓑ 8kg-cm [6.94 Ib-in.] (0.78 Nm) (As shown in figure above) Ⓒ 2kg-cm [1.73 lb-in.] (0.19 Nm) (As shown in figure above) Wiring precautions: Reserves 5mm and properly install the wire into the terminal;... - Page 69 Chapter 6 Control Terminals|CFP2000 Series Terminals Terminal Function Factory Setting (NPN mode) operation, frequency attained or overload indication. Multi-function relay common Note: Terminal RA1 supports N.O. and N.C. Multi-function relay output 2 (N.O.) a But terminal RA2 and RA3 support only N.O. Multi-function relay common Potentiometer power supply +10V...
-
Page 70: Analog Input Terminals (Avi1, Aci, Avi2, Acm)
Chapter 6 Control Terminals|CFP2000 Series Analog input terminals (AVI1, AVI2, ACI, ACM) Analog input signals are easily affected by external noise. Use shielded wiring and keep it as short as possible (<20m) with proper grounding. If the noise is inductive, connecting the shield to terminal ACM can bring improvement. - Page 71 Chapter 6 Control Terminals|CFP2000 Series Sink Mode Sourc e Mode with external power with external power +2 4V +2 4V internal c irc ui t internal c irc ui t external power +24V external power +24V...
-
Page 72: Remove The Terminal Block
Chapter 6 Control Terminals|CFP2000 Series 6-3 Remove the Terminal Block 1. Loosen the screws by screwdriver. (As shown in figure below). 2. Remove the control board by pulling it out for a distance 6~8 cm (as 1 in the figure) then lift the control board upward (as 2 in the figure). - Page 73 Chapter 6 Control Terminals|CFP2000 Series [The page intentionally left blank]...
-
Page 74: Chapter 7 Optional Accessories
Chapter 7 Optional Accessories|CFP2000 Series Chapter 7 Optional Accessories 7-1 All Brake Resistors and Brake Units Used in AC Motor Drives 7-2 Non-fuse Circuit Breaker 7-3 Fuse Specification Chart 7-4 AC/DC Reactor 7-5 Zero Phase Reactor 7-6 EMC Filter 7-7 Panel Mounting 7-8 Fan Kit 7-9 USB/RS-485 Communication Interface IF6530... -
Page 75: All Brake Resistors And Brake Units Used In Ac Motor Drives
Chapter 7 Optional Accessories |CFP2000 Series The optional accessories listed in this chapter are available upon request. Installing additional accessories to your drive would substantially improve the drive’s performance. Please select an applicable accessory according to your need or contact the local distributor for suggestion. 7-1 All Brake Resistors and Brake Units Used in AC Motor Drives Applicable 125%Braking Torque 10%ED... - Page 76 If damage to the drive or other equipment is due to the fact that the brake resistors and brake modules in use are not provided by Delta, the warranty will be void. Take into consideration the safety of the environment when installing the brake resistors. If the minimum resistance value is to be utilized, consult local dealers for the calculation of Watt figures.
-
Page 77: Non-Fuse Circuit Breaker
The rated current of the breaker shall be 1.6~2.6 times of the maximum rated input current of AC motor drive. Model Recommended non-fuse breaker (A) VFD007FP4EA-41/ VFD007FP4EA-52/ VFD007FP4EA-52S VFD015FP4EA-41/ VFD015FP4EA-52/ VFD015FP4EA-52S VFD022FP4EA-41/ VFD022FP4EA-52/ VFD022FP4EA-52S VFD040FP4EA-41/ VFD040FP4EA-52/ VFD040FP4EA-52S VFD037FP4EA-41/ VFD037FP4EA-52/ VFD037FP4EA-52S... -
Page 78: Fuse Specification Chart
Electrical Code and any applicable provincial codes. To fulfill this requirement, use the UL classified fuses” Line Fuse Input Current I(A) Model Light Duty Normal Duty I (A) Bussmann P/N VFD007FP4EA-41/ VFD007FP4EA-52/ JJS-6 VFD007FP4EA-52S VFD015FP4EA-41/ VFD015FP4EA-52/ JJS-6 VFD015FP4EA-52S VFD022FP4EA-41/ VFD022FP4EA-52/ JJS-10 VFD022FP4EA-52S... -
Page 79: Ac/Dc Reactor
Connecting an AC input reactor AC Input Reactor 380V~460V/ 50~60Hz Rated Amps of Max. continuous 3% Input AC reactor AC Reactor(Arms) Amps (Arms) impedance(mH) impedance(mH) Built-in Delta part # (Note 1) Type KW HP Normal Light Normal Light Normal Light Normal Light DC reactor... - Page 80 Note 1: AC input reactor is designed with 3% system impedance, if you have any other requirements please contact Delta for detail. The following table is spec. of THDi that Delta AC motor drives use with AC reactors. Motor Drive...
- Page 81 The table below shows the specifications of AC output reactors (standard items). 380V~460V/ 50~60Hz Rated Amps of Max. continuous 3% Input AC reactor AC Reactor(Arms) Amps (Arms) impedance(mH) impedance(mH) Delta part # (Note 2) Built-in Type KW HP Normal Light Normal Light Normal Light...
- Page 82 0.225 Note 2: AC output reactor is designed with 3% system impedance, it is in planning & design stage now, if you have any other requirements please contact Delta for detail. The length of motor cable 1. Cable length suggestion for Drive in full load If the length is too long, the stray capacitance between cables will increase and may cause leakage current.
- Page 83 Chapter 7 Optional Accessories |CFP2000 Series The suggested motor shielded cable length in the following table complies with IEC 60034-17, which is suitable for motors with a rated voltage ≤500 Vac and with an insulation level of ≥1.35 kVp-p Rated Amps of AC Reactor Without installation AC output Reactor 3% Output AC reactor (Arms)
- Page 84 Chapter 7 Optional Accessories|CFP2000 Series 7-5 Zero Phase Reactors Interferences can be suppressed by installing a zero phase reactor. When encounter any interference, buy and install a zero phase reactor. Zero Phase Reactors for Signal Cable To solve interference problems between signal cables and electric devices, install a zero phase reactor on signal cable.
-
Page 85: Zero Phase Reactor
Chapter 7 Optional Accessories |CFP2000 Series 7-6 EMC Filter Following table is the external EMC filter, user can choose corresponding zero phase reactor and suitable shielded cable length in accord to required noise emission and electromagnetic interference level to have the best configuration to suppress the electromagnetic interference。... - Page 86 By using an EMC filter with correct installation, much interference can be eliminated. It is recommended to use DELTA EMC filter to have the best interference elimination performance.
- Page 87 Chapter 7 Optional Accessories |CFP2000 Series Figure 2b Choose suitable motor cable and precautions Improper installation and choice of motor cable will affect the performance of EMI filter. Be sure to observe the following precautions when selecting motor cable. The shielded layers of motor cable need to be grounded by using omega clips or pig tail.
- Page 88 Chapter 7 Optional Accessories|CFP2000 Series EMC C1 with zero phase reactor installation Frame A Frame B Frame C 7-15...
-
Page 89: Panel Mounting
Chapter 7 Optional Accessories |CFP2000 Series 7-7 Panel Mounting (MKC-KPPK) For MKC-KPPK model, user can choose wall mounting or embedded mounting, protection level is IP66. It is applicable for the digital keypads (KPC-CC02). Wall Mounting Embedded Mounting accessories*1 accessories*2 Screw *4 ~M4*p 0.7 *L8mm Screw *4 ~M4*p 0.7 *L8mm Torque: 10-12kg-cm (8.7-10.4lb-in.) Torque: 10-12kg-cm (8.7-10.4lb-in.) - Page 90 Chapter 7 Optional Accessories|CFP2000 Series 7-17...
-
Page 91: Fan Kit
Chapter 7 Optional Accessories |CFP2000 Series 7-8 Fan Kit Frames of the fan kit Frame A Heat sink Fan Model『MKFP-AFKM』 Applicable Model VFD022FP4EA-52, VFD022FP4EA-52S VFD037FP4EA-52, VFD037FP4EA-52S, VFD040FP4EA-52, VFD040FP4EA-52S, VFD055FP4EA-52, VFD055FP4EA-52S, VFD075FP4EA-52, VFD075FP4EA-52S Frame A Capacitor Fan Model 『MKFP-AFKB』 Applicable Model VFD022FP4EA-52, VFD022FP4EA-52S VFD037FP4EA-52, VFD037FP4EA-52S, VFD040FP4EA-52, VFD040FP4EA-52S,... - Page 92 Chapter 7 Optional Accessories|CFP2000 Series Frame C Heat sink Fan Model 『MKFP-CFKM』 Applicable Model VFD300FP4EA-52, VFD300FP4EA-52S VFD370FP4EA-52, VFD370FP4EA-52S Frame D0 Heat sink Fan Model 『MKFP-D0FKM』 Applicable Model VFD450FP4EA-52, VFD550FP4EA-52 VFD450FP4EA-52S, VFD550FP4EA-52S Frame D Heat sink Fan Model 『MKFP-DFKM』 Applicable Model VFD750FP4EA-52, VFD900FP4EA-52 VFD750FP4EA-52S, VFD900FP4EA-52S 7-19...
- Page 93 Chapter 7 Optional Accessories |CFP2000 Series Fan Removal Frame A Model『MKFP-AFKM』: Heat Sink Fan Applicable model VFD022FP4EA-52, VFD022FP4EA-52S, VFD037FP4EA-52, VFD037FP4EA-52S, VFD040FP4EA-52, VFD040FP4EA-52S,VFD055FP4EA-52, VFD055FP4EA-52S, VFD075FP4EA-52, VFD075FP4EA-52S 1. Refer to Figure 1, loosen the 4 screws then remove the fan kit. 2. Screw torque: 14~16kg-cm [12.2~13.9lb-in.] Figure 1 Frame A Model 『MKFP-AFKB』:...
- Page 94 Chapter 7 Optional Accessories|CFP2000 Series Figure 2 Figure 3 Frame B Model『MKFP-BFKM1』Heat Sink Fan Applicable model VFD110FP4EA-52, VFD110FP4EA-52S, VFD150FP4EA-52, VFD150FP4EA-52S, VFD185FP4EA-52, VFD185FP4EA-52S Refer to Figure 1, loosen the 4 screws then remove the fan kit. 2. Screw torque: 14~16kg-cm [12.2~13.9lb-in.] Figure 1 7-21...
- Page 95 Chapter 7 Optional Accessories |CFP2000 Series Frame B Model『MKFP-BFKB』Capacitor Fan Applicable model VFD110FP4EA-52, VFD110FP4EA-52S, VFD150FP4EA-52, VFD150FP4EA-52S, VFD185FP4EA-52, VFD185FP4EA-52S, VFD220FP4EA-52, VFD220FP4EA-52S 1. Press the hook in the top of digital keypad, then rotate to remove the digital keypad (refer to Figure 2 ) 2.
- Page 96 Chapter 7 Optional Accessories|CFP2000 Series Frame C Model『MKFP-CFKM』Heat Sink Fan Applicable model VFD300FP4EA-52, VFD370FP4EA-52; VFD300FP4EA-52S, VFD370FP4EA-52S Refer to Figure 1, loosen the 4 screws then remove the fan kit. Screw torque: 24~26kg-cm [20.8~22.6lb-in.] Figure 1 7-23...
- Page 97 Chapter 7 Optional Accessories |CFP2000 Series Frame C Model『MKFP-CFKB2』Capacitor Fan Applicable model VFD300FP4EA-52, VFD370FP4EA-52; VFD300FP4EA-52S, VFD370FP4EA-52S 1. Press the hook in the top of digital keypad, then rotate to remove the digital keypad (refer to Figure 2 ) Screw 1~6 torque: 14~16kg-cm [12.1~13.9lb-in.] 3.
- Page 98 Chapter 7 Optional Accessories|CFP2000 Series Frame D0 Model 『MKFP-D0FKM』Heat Sink Fan Applicable model VFD450FP4EA-52, VFD550FP4EA-52; VFD450FP4EA-52S, VFD550FP4EA-52S 1. Loosen the screw and remove the fan kit. 『Screw torque: 24~26kgf-cm (20.8~22.6lb-in)』 2. Before removing the fan, remove the cover by using a slotted screwdriver. (refer to Figure 1) Figure 1 7-25...
- Page 99 Chapter 7 Optional Accessories |CFP2000 Series Frame D0 Model 『MKFP-DFKB』Capacitor Fan Applicable model VFD450FP4EA-52, VFD550FP4EA-52; VFD450FP4EA-52S, VFD550FP4EA-52S 1. Press the hook in the top of digital keypad, then rotate to remove the digital keypad (refer to Figure 2 ) Screw 1~6 torque: 14~16kg-cm [12.1~13.9lb-in.] 3.
- Page 100 Chapter 7 Optional Accessories|CFP2000 Series Frame D Model『MKFP-DFKM』Heat Sink Fan Applicable model VFD750FP4EA-52, VFD900FP4EA-52; VFD750FP4EA-52S, VFD900FP4EA-52S 1. Loosen the screw and remove the fan kit. Screw torque: 14~16kg-cm [12.1~13.9lb-in.] 2. Before removing the fan, remove the cover by using a slotted screwdriver. (refer to Figure 1) Figure 1 7-27...
- Page 101 Chapter 7 Optional Accessories |CFP2000 Series Frame D Model 『MKFP-DFKB』Capacitor Fan Applicable model VFD750FP4EA-52, VFD900FP4EA-52; VFD750FP4EA-52S, VFD900FP4EA-52S 1. Press the hook in the top of digital keypad, then rotate to remove the digital keypad (refer to Figure 2 ) Screw 1~8 torque: 14~16kg-cm [12.1~13.9lb-in.] 3.
-
Page 102: Usb/Rs-485 Communication Interface Ifd6530
RJ-45 in RS-485 connector for users to wire conveniently. And its tiny dimension, handy use of plug-and-play and hot-swap provide more conveniences for connecting all DELTA IABU products to your PC. Applicable Models: All DELTA IABU products. - Page 103 Chapter 7 Optional Accessories |CFP2000 Series RJ-45 Description Description Reserved Reserved Reserved 3. Preparations before Driver Installation Please extract the driver file (IFD6530_Drivers.exe) by following steps. You could find driver file (IFD6530_Drivers.exe) in the CD supplied with IFD6530. Note: DO NOT connect IFD6530 to PC before extracting the driver file. STEP 1 STEP 2 STEP 3...
- Page 104 Chapter 7 Optional Accessories|CFP2000 Series 4. Driver Installation After connecting IFD6530 to PC, please install driver by following steps. 7-31...
- Page 105 Chapter 7 Optional Accessories |CFP2000 Series 5. LED Display 1. Steady Green LED ON: power is ON. 2. Blinking orange LED: data is transmitting. 7-32...
-
Page 106: Chapter 8 Option Cards
Chapter 8 Optional Cards |CFP2000 Series Chapter 8 Option Cards 8-1 Removed Key Cover 8-2 Screws Specification for Option Card Terminals 8-3 EMC-D42A 8-4 EMC-D611A 8-5 EMC-R6AA 8-6 EMC-BPS01 8-7 CMC-MOD01 8-8 CMC-PD01 8-9 CMC-DN01 8-10 CMC-EIP01 8-11 EMC-COP01... -
Page 107: Removed Key Cover
Chapter 8 Optional Cards |CFP2000 Series Please select applicable option cards for your drive or contact local distributor for suggestion. To prevent drive damage during installation, please removes the digital keypad and the cover before wiring. Refer to the following instruction. 8-1 Removed key cover Frame A&B Screw Torque: 12~15Kg-cm [10.4~13lb-in.]... -
Page 108: Screws Specification For Option Card Terminals
Chapter 8 Optional Cards |CFP2000 Series 1 RJ45 (Socket) for digital keypad KPC-CC02 Please refer to CH10 Digital Keypad for more details on KPC-CC02. Please refer to CH10 Digital Keypad for more details on optional accessory RJ45 extension cable. 2 Communication extension card (Slot 1) CMC-MOD01;... - Page 109 Chapter 8 Optional Cards |CFP2000 Series EMC-BPS01 EMC-D611A Communication extension card (Slot 1) CMC-DN01 CMC-PD01...
- Page 110 Chapter 8 Optional Cards |CFP2000 Series EMC-COP01 CMC-MOD01/ CMC-EIP01...
- Page 111 Chapter 8 Optional Cards |CFP2000 Series Communication Card installation (I/O & Relay extension card) Put the insulating plate on the positioning column first, then align the positioning column by using two holes on the PCB, press it and let two hooks stuck on the PCB as the figure showing.
- Page 112 Chapter 8 Optional Cards |CFP2000 Series Disconnecting the extension card Loosen the two screws as the figure showing. Pull open the hook then put slotted screwdriver into the sag under the PCB,let PCB out of the hook as the figure showing.
-
Page 113: Emc-D42A
Chapter 8 Optional Cards |CFP2000 Series 8-3 EMC-D42A Terminals Descriptions Common for Multi-function input terminals Select SINK (NPN) /SOURCE (PNP) in J1 jumper / external power supply Refer to parameters 02-26~02-29 to program the multi-function inputs MI10~MI13. Internal power is applied from terminal E24: +24Vdc±5% 200mA, MI10~ MI13 External power +24VDC: max. -
Page 114: Emc-Bps01
Chapter 8 Optional Cards |CFP2000 Series 8-6 EMC-BPS01 Terminals Descriptions Input power: 24V±5% Maximum input current:0.5A External Power Note: Supply 1) Do not connect control terminal +24V (Digital control signal common: SOURCE) directly to the EMC-BPS01input terminal 24V. 2) Do not connect control terminal GND directly to the EMC-BPS01 input terminal GND. -
Page 115: Cmc-Mod01
Category 5e shielding 100M Transmission cable Transmission speed 10/100 Mbps Auto-Detect ICMP, IP, TCP, UDP, DHCP, HTTP, SMTP, MODBUS OVER TCP/IP, Network protocol Delta Configuration Electrical Specification Power supply voltage 5VDC (supply by the AC motor drive) Insulation voltage 500Vdc Power consumption 0.8W... - Page 116 Source of operation The operation command is controlled by P00-21 command setting communication card. Decoding method for Decoding method for Delta AC motor drive P09-30 communication IP setting Static IP(0) / Dynamic distribution IP(1) P09-75 IP address -1 IP address 192.168.1.5...
- Page 117 Chapter 8 Optional Cards |CFP2000 Series LED Indicator & Troubleshooting LED Indicators Status Indication How to correct it? Power supply in normal status POWER Green No power supply Check the power supply Network connection in normal status Flashes Network in operation LINK Green Check if the network cable is...
-
Page 118: Cmc-Pd01
Chapter 8 Optional Cards |CFP2000 Series 8-8 CMC-PD01 Features Supports PZD control data exchange. Supports PKW polling AC motor drive parameters. Supports user diagnosis function. Auto-detects baud rates; supports Max. 12Mbps. Product Profile 1. NET indicator 2. POWER indicator 3. Positioning hole 4. - Page 119 Chapter 8 Optional Cards |CFP2000 Series Environment ESD(IEC 61800-5-1,IEC 6100-4-2) EFT(IEC 61800-5-1,IEC 6100-4-4) Noise immunity Surge Teat(IEC 61800-5-1,IEC 6100-4-5) Conducted Susceptibility Test(IEC 61800-5-1,IEC 6100-4-6) Operation: -10ºC ~ 50ºC (temperature), 90% (humidity) Operation /storage Storage: -25ºC ~ 70ºC (temperature), 95% (humidity) Shock / vibration International standards: IEC61131-2, IEC68-2-6 (TEST Fc)/IEC61131-2 &...
-
Page 120: Cmc-Dn01
Chapter 8 Optional Cards |CFP2000 Series 8-9 CMC-DN01 Functions Based on the high-speed communication interface of Delta HSSP protocol, able to conduct immediate control to AC motor drive. Supports Group 2 only connection and polling I/O data exchange. For I/O mapping, supports Max. 32 words of input and 32 words of output. - Page 121 Chapter 8 Optional Cards |CFP2000 Series Electrical Specification Power supply voltage 5VDC (supplied by AC motor drive) 500VDC Insulation voltage Communication wire 0.85W power consumption Power consumption Weight Environment ESD (IEC 61800-5-1,IEC 6100-4-2) EFT (IEC 61800-5-1,IEC 6100-4-4) Noise immunity Surge Teat(IEC 61800-5-1,IEC 6100-4-5) Conducted Susceptibility Test (IEC 61800-5-1,IEC 6100-4-6) Operation: -10ºC ~ 50ºC (temperature), 90% (humidity) Operation /storage...
- Page 122 Chapter 8 Optional Cards |CFP2000 Series NS LED LED status Indication How to correct it? 1. Check the power of CMC-DN01 and see if the connection is normal. No power supply or CMC-DN01 has 2. Make sure at least one or more nodes are on the not completed MAC ID test yet.
-
Page 123: Cmc-Eip01
1 Port Transmission method IEEE 802.3, IEEE 802.3u Transmission cable Category 5e shielding 100M Transmission speed 10/100 Mbps Auto-Detect ICMP, IP, TCP, UDP, DHCP, HTTP, SMTP, MODBUS OVER TCP/IP, EtherNet/IP, Delta Network protocol Configuration Electrical Specification Weight Insulation voltage 500VDC Power consumption 0.8W... - Page 124 Source of operation The operation command is controlled by P00-21 command setting communication card. Decoding method for The decoding method for Delta AC motor P09-30 communication drive P09-75 IP setting Static IP(0) / Dynamic distribution IP(1) P09-76 IP address -1 IP address 192.168.1.5...
- Page 125 Chapter 8 Optional Cards |CFP2000 Series P09-78 IP address -3 IP address 192.168.1.5 P09-79 IP address -4 IP address 192.168.1.5 P09-80 Netmask -1 Netmask 255.255.255.0 P09-81 Netmask -2 Netmask 255.255.255.0 P09-82 Netmask -3 Netmask 255.255.255.0 P09-83 Netmask -4 Netmask 255.255.255.0 P09-84 Default gateway -1 Default gateway 192.168.1.1...
- Page 126 Chapter 8 Optional Cards |CFP2000 Series Abnormality Cause How to correct it? Able to open Check if the network setting for CMC-EIP01 is CMC-EIP01 setup correct. For the Intranet setting in your company, Incorrect network setting in page but fail to please consult your IT staff.
-
Page 127: Emc-Cop01
19 ± 0.4 TAP-CB03 39 ± 0.4 TAP-CB04 1000± 10 CANopen Dimension Model: TAP-CN03 NOTE For more information on CANopen, please refer to Chapter 15 CANopen Overview or CANopen user manual can also be downloaded on Delta website: http://www.delta.com.tw/industrialautomation/ 8-22... - Page 128 Chapter 8 Optional Cards |CFP2000 Series [The page intentionally left blank] 8-23...
-
Page 129: Specification
Chapter 9 Specifications |CFP2000 Series Chapter 9 Specification 9-1 Specification Frame Size Model VFD_ _ _ FP4EA- _ _ _ Rated output capacity (kVA) 10.4 14.3 Rated output current (A) 10.5 Applicable motor output (kW) 0.75 18.5 Applicable motor output (HP) 120% of rated current can endure for1 minute during every 5 minutes Overload tolerance Max. - Page 130 Chapter 9 Specifications |CFP2000 Series General Specifications Control Method 1: V/F, 2: SVC, 3: PMSVC, Reach up to 150% or above at 0.5Hz. Starting Torque Under FOC+PG mode, starting torque can reach 150% at 0Hz. V/F Curve 4 point adjustable V/F curve and square curve Speed Response Ability 5Hz (vector control can reach up to 40Hz) Torque Limit...
-
Page 131: Environment For Operation, Storage And Transportation
Chapter 9 Specifications |CFP2000 Series 9-2 Environment for Operation, Storage and Transportation The drive must not be exposed to dust, direct sunlight, corrosive or flammable gases, oil mist, vapor, water drops or vibration. The atmosphere must contain only a low level of salt. (0.01 mg/cm2 or less per year) Installation location IEC60364-1/IEC60664-1 Pollution degree 2, Indoor use only - 15°C ~+ 50°C without derating, Operation... -
Page 132: Derating Of Ambient Temperature And Altitude
Chapter 9 Specifications |CFP2000 Series 9-3 Derating of ambient temperature and altitude... -
Page 133: Chapter 10 Digital Keypad
Chapter 10 Digital Keypad |CFP2000 Chapter 10 Digital Keypad 10-1 Descriptions of Digital Keypad 10-2 Function of Digital Keypad KPC-CC02 10-3 TPEditor Installation Instruction 10-4 Fault Code Description of Digital Keypad KPC-CC02 10-5 Functions which are not supported when using TPEditor with KPC-CC02 10-1... - Page 134 Buy a MKC-KPPK model to do wall mounting or embedded mounting. Its protection level is IP66. The maximum RJ45 extension lead is 5 m (16ft) This keypad can only be used on Delta’s motor drive CFP2000. Descriptions of Keypad Functions Descriptions Start Operation Key It is only valid when the source of operation command is from the keypad.
- Page 135 Chapter 10 Digital Keypad |CFP2000 Descriptions Other functions must be defined by TPEditor first. TPEditor software can be downloaded http://www.deltaww.com/services/DownloadCenter2.aspx?secID=8&pid=2&tid=0&CID=06&itemID=060302&typeID=1&downloadID=,&title=-- Select Product Series --&dataType=8;&check=1&hl=en-US Please refer to instruction for TPEditor in Chapter 10-3. HAND ON Key This key is executed by the parameter settings of the source of Hand frequency and hand operation.
- Page 136 Chapter 10 Digital Keypad|CFP2000 Series Descriptions RUN LED: Condition/State status CANopen at initial No LED Blinking CANopen at pre-operation CANopen~ “RUN” Single CANopen at stopped flash 1000 CANopen at operation status No LED ERR LED: Condition/ State status No Error Single One message fail flash...
- Page 137 Startup page can only display pictures, no flash. When Power ON, it will display startup page then the main page. The main page displays Delta’s default setting F/H/A/U, the display order can be set by Pr.00.03 (Startup display). When the selected item is U page, use left key and right key to switch between the items, the display order of U page is set by Pr.00.04 (User display).
- Page 138 Chapter 10 Digital Keypad|CFP2000 Series Display Icon Display item Parameter Setup For example: Setup source of master frequency command. Once in the Group 00 Motor Drive Parameter, Use Up/Down key to select parameter 20: Auto Frequency Command. When this parameter is selected, press ENTER key to go to this parameter’s setting Press ENTER key to select.
- Page 139 Chapter 10 Digital Keypad |CFP2000 Begin to copy parameters until it is done. Once copying parameters is done, keypad will automatically be back to this screen. Example: Saved in the keypad. 1. Once copying parameters is done, keypad will automatically be back to this screen. 2.
- Page 140 Turn off the power and turn on the power again will not lock keypad. PLC Function When activate and stop PLC function, the PLC status will be displayed on main page of Delta default setting. Option 2: Enable PLC function Press Up/Down key to select a PLC’s function.
- Page 141 Chapter 10 Digital Keypad |CFP2000 Copy PLC 4 duplicates are provided The steps are shown in the example below. Example: Saved in the motor drive. 1 Go to Copy PLC 2 Select a parameter group to copy then press ENTER 1 Select 1: Save in the motor drive.
- Page 142 Chapter 10 Digital Keypad|CFP2000 Series Once the file name is confirmed, press ENTER key. To begin copying parameters until it is done. When copying parameters is completed, keypad will automatically be back to this screen. Press Right key to see the date of copying parameters.
- Page 143 Chapter 10 Digital Keypad |CFP2000 Quick Start Description: PG mode is only applicable on C2000/ CH2000 series. VF Mode Items 1. Parameter Protection Password Input (P00-07) 2. Parameter Protection Password Setting Press ENTER key to select. (P00-08) 3. Control Mode (P00-10) Quick Start: 4.
- Page 144 Chapter 10 Digital Keypad|CFP2000 Series 18. Decel Time 1 (P01-13) 19. Over-voltage Stall Prevention (P06-01) 20. Software Brake Level (P07-00) 21. Filter Time of Torque Command (P07-24) 22. Filter Time of Slip Compensation (P07-25) 23. Slip Compensation Gain (P07-27) 24. Encoder Type Selection (P10-00) 25.
- Page 145 Chapter 10 Digital Keypad |CFP2000 Emergency Stop (EF) & Force to Stop Selection (P07-20) Filter Time of Torque Command (P07-24) Filter Time of Slip Compensation (P07-25) Slip Compensation Gain (P07-27) FOCPG Mode Items 1. Parameter Protection Password Input (P00-07) 2. Parameter Protection Password Setting (P00-08) 3.
- Page 146 Chapter 10 Digital Keypad|CFP2000 Series TQCPG Mode Items 1. Password Input (Decode) (P00-07) 2. Password Setting (P00-08) 3. Control Mode (P00-10) 4. Control of Speed Mode (P00-11) 5. Source of the Master Frequency Command (P00-20) 01: Password Decoder 6. Source of the Operation Command (P00-21) 7.
- Page 147 Chapter 10 Digital Keypad |CFP2000 My Mode Items It can save 01~32 sets of parameters (Pr). Setup process 1. Go to Parameter Setup function. Press ENTER to select the parameter which you need to use. There is an Click F4 in parameter ADD on the bottom right-hand corner of setting page, the the screen.
- Page 148 Chapter 10 Digital Keypad|CFP2000 Series Display setup 1. Contrast Use Up/Down key to adjust the setting value. Press ENTER key to setting After selecting a setting value. Press ENTER to see screen’s display after menu. contrast is adjusted to be +10. When the setting value is 0 Min, the back light will be steady on.
- Page 149 Chapter 10 Digital Keypad |CFP2000 Use Up / Down key to adjust the setting value. The setting value changes to Blue Text. Time setting Time setup Use Up/Down key to set up Year 2009/01/01 _ _ : _ _ :_ _ Use Left/Right key to select Use Up/Down key to set up Month Year, Month, Day, Hour, Minute...
- Page 150 If editor accessory is not installed, “user defined” option will display a blank page. USB/RS-485 Communication Interface-IFD6530 Please refer to Chapter 07 Optional Accessories for more detail. TPEditor Go to Delta’s website to download TPEditor V1.60 or later versions. http://www.deltaww.com/services/DownloadCenter2.aspx?secID=8&pid=2&tid=0&CID=06&itemID=060302&typeID=1&dow nloadID=,&title=-- Select Product Series --&dataType=8;&check=1&hl=en-US 12. Main page 1. Default page 60.00Hz...
- Page 151 USB/RS-485 Communication Interface-IFD6530 Please refer to Chapter 07 Optional Accessories for more detail. TPEditor Go to Delta’s website to download TPEditor V1.60 or later versions. http://www.deltaww.com/services/DownloadCenter2.aspx?secID=8&pid=2&tid=0&CID=06&itemID=060302&typeID=1&dow nloadID=,&title=-- Select Product Series --&dataType=8;&check=1&hl=en-US 13. PC Link TPEditor: This function allows users to connect the keypad to a computer then to download and edit user defined pages.
- Page 152 Chapter 10 Digital Keypad|CFP2000 Series Start downloading pages to edit KPC-CC02. Download completed VFDSoft: this function allows user to link to the VFDSoft Operating software then to upload data Start downloading pages to edit to KPC-CC02 Use Up/Down key to select a parameter group to upload to VFDSoft.
- Page 153 Chapter 10 Digital Keypad |CFP2000 In Parameter Manager, choose <Load parameter table from KPC-CC02> Choose the right communication port and click OK Start to upload parameters to VFDSoft Uploading parameter is completed Before using the user defined starting screen and user defined main screen, the starting screen setup and the main screen setup have to be preset as user defined.
- Page 154 Chapter 10 Digital Keypad|CFP2000 Series 14. Application Selection List Application Selection List is the collection focusing on common used parameters for industry application, which is providing user the required parameter groups according to application; hence it also can change the value of the modified parameters to achieve a more rapid and convenient Select”...
- Page 155 Chapter 10 Digital Keypad |CFP2000 parameters (it will have a little number of parameters different according to the different kind of application list you select.There are 24 default parameters in compressor application; if you select Fan application, there are 33 default parameters.) 3.
- Page 156 Chapter 10 Digital Keypad|CFP2000 Series 03-00 Analog Input Selection (AVI) System Definition 03-01 Analog Input Selection (ACI) System Definition 05-01 Full-load Current of Induction Motor 1(A) Factory Setting 05-03 Rated Speed of Induction Motor 1 (rpm) Factory Setting 05-04 Pole Number of Induction Motor 1 Factory Setting 5.
- Page 157 Chapter 10 Digital Keypad |CFP2000 If there has User Parameter settings, when back to Application Selection List page, press ENTER it will display the current application as " User Parameter “, then press ENTER again, it will appear the previous setting parameters.
- Page 158 Chapter 10 Digital Keypad|CFP2000 Series Source of the Operation Command (HAND) System Definition 00-31 Max. Operation Frequency 1-00 Factory Setting Output Frequency of Motor 1 01 01 Factory Setting Output Voltage of Motor 1 01-02 Factory Setting Mid-point Frequency 1 of Motor 1 01-03 Factory Setting Mid-point Voltage 1 of Motor 1...
- Page 159 Chapter 10 Digital Keypad |CFP2000 e.g. adjust 13-01 Application Parameter 1 value from 0.11(00-11 Control of Speed Mode) to 0.02(00-02 Parameter Reset). key to select 01:Application Parameter 1,then press to adjust parameter value. key to adjust the parameter 0.02, then press In Fan application, when adding new parameter space (Pr.13-34~99),it needs to pay attention that if you key in 0.00 in any position, it will be identified as the final parameters of this application...
- Page 160 Chapter 10 Digital Keypad|CFP2000 Series 15. Parameter Changed List Parameter changed list will record the parameter change from user (not limited in parameter setting record list) In Menu page,use key to select 15: Changed List,then press User can review Changed List to check the parameter that is different from default setting.
- Page 161 Chapter 10 Digital Keypad |CFP2000 Other display When fault occur, the menu will display: Fault Warning CE01 Oc at accel Comm. Error 1 1. Press STOP/RESET button to reset the fault code. If still no response, please contact local distributor or return to the factory.
- Page 162 2. Go to File(F) Click on New. The Window below will pop up. At the device type, click on the drop down menu and choose DELTA VFD-C Inverter. At the TP type, click on the drop down menu and choose VFD-C Keypad.
- Page 163 Chapter 10 Digital Keypad |CFP2000 5. Static Text . Open a blank page, click once on this button , and then double click on that blank page. The following windows will pop up. 6. Static Bitmap Open a blank page, then click once on this button and then double click on that blank page.
- Page 164 Chapter 10 Digital Keypad|CFP2000 Series 8. Finish editing the keypad starting screen and select Communication>Input User Defined Keypad Starting Screen. 9. Downloading setting: Go to Tool > Communication. Set up communication port and speed of IFD6530. There are five speed selections available: 9600、19200 、38400、57600 and 115200 bps. 10.
- Page 165 Chapter 10 Digital Keypad |CFP2000 Edit Main Page & Example of Download Go to editing page, select add one page or press the button ADD on the right hand side of the HMI page to increase number of pages to edit. This keypad currently support up to 256 pages. On the bottom right-hand corner of the HMI, click on a page number to edit or go to VIEW >HMI page to start editing main page.
- Page 166 Chapter 10 Digital Keypad|CFP2000 Series Scale Setting : On the Tool Bar, click on this for Scale Setting. You can also edit Scale Setting in the Property Window on the right hand side of your computer screen. Scale Position: Click on the drop down list to choose which position that you need to place a scale. Scale Side: Click on the drop down list to choose if you want to number your scale from smaller number to bigger number or from big to small.
- Page 167 Chapter 10 Digital Keypad |CFP2000 Button : Currently this function only allows the Keypad to switch pages, other functions are not yet available. Text input function and Image inserted functions are not yet supported. Double click on to open set up window. <Button Type>...
- Page 168 Chapter 10 Digital Keypad|CFP2000 Series Clock Display Setting : The setup window of the Clock Display is shown as the image below. Time, Day or Date can be displayed on the keypad. Open a new file and click once in that window, you will see the following In the clock display setting, you can choose to display Time, Day or Date on the Keypad.
- Page 169 Chapter 10 Digital Keypad |CFP2000 10. Numeric Input Setting This menu allows you to provide parameters or communication ports and to input numbers. Click once on this button Open a new file and double click on that window, you will see the following: Related Device: There are two blank spaces to fill in, one is <Write>...
- Page 170 Chapter 10 Digital Keypad|CFP2000 Series 10-4 Digital Keypad KPC-CC02 Fault Codes and Descriptions Fault Codes LCM Display * Description Corrective Actions An error has occurred on keypad’s flash memory. 1. Press RESET on the keypad to clear errors. 2. Verify what kind of error has occurred on Fault keypad’s flash memory.
- Page 171 Chapter 10 Digital Keypad |CFP2000 Warning Codes LCM Display * Description Corrective Actions Motor drive doesn’t accept the communication command sent from keypad. 1. Verify if the keypad is properly connected to the Warning motor drive on the communication contact by a Modbus function code error CE01 communication cable such as RJ-45.
- Page 172 Chapter 10 Digital Keypad|CFP2000 Series File Copy Setting Fault Description: These faults will happen when KPC-CC02 cannot perform the command after clicking the Enter button in copy function. 001> P00-00 ERR3 LCM Display * Description Corrective Actions The property of the parameter/file is read-only and 001>...
- Page 173 Chapter 10 Digital Keypad |CFP2000 LCM Display * Description Corrective Actions A setting cannot be made, because some data are locked. 1. Verify if the data are unlocked or able to be 001> P00-00 unlocked. If the data are unlocked, try to make the File is locked with password setting again.
- Page 174 Chapter 10 Digital Keypad|CFP2000 Series 10-5 Functions not supported when using TPEditor with KPC-CC02 1. Local Page Setting and Global Setting functions are not supported. 2. [Communication] [Read from TP] functions are not supported. 3. In RTC Display Setting, the Refer Device cannot be modified. 10-42...
- Page 175 Chapter 11 Summary of Parameter SettingsCFP2000 Series Chapter 11 Summary of Parameter Settings This chapter provides summary of parameter settings for user to gather the parameter setting ranges, factory settings and set parameters. The parameters can be set, changed and reset by the digital keypad. NOTE 1)...
- Page 176 Chapter 11 Summary of Parameter SettingsCFP2000 Series Factory Explanation Settings Setting 13: Display AUI in % (3.) (Unit: %) 14: Display the temperature of IGBT in ℃ (i.) (Unit: ℃) 15: Display the temperature of capacitance in ℃ (c.) (Unit: ℃) 16: The status of digital input (ON/OFF) (i) 17: The status of digital output (ON/OFF) (o) 18: Multi-step speed (S)
- Page 177 Chapter 11 Summary of Parameter SettingsCFP2000 Series Factory Settings Explanation Setting Bit 2: Reserved Bit 3: Reserved 0: Digital keypad 1: RS-485 serial communication Source of Master Frequency 2: External analog input (Pr.03-00) 00-20 Command(AUTO) 3: External UP/DOWN terminal 6: CANopen communication card 8: Communication card (no CANopen card) 0: Digital keypad 1: External terminals.
- Page 178 Chapter 11 Summary of Parameter SettingsCFP2000 Series Factory Explanation Settings Setting 023xh: GPM 024xh: CFM When Pr.00-25 bit 0~3=0000B Setting: 1~65535 0: Disable When Pr.00-25 bit 0~3=0000B Setting: 0.1~6553.5 Factory Setting: 0.0 00-26 Max. User Defined Value When Pr.00-25 bit 0~3=0000B Setting: 0.01~655.35 Factory Setting: 0.00 When Pr.00-25 bit 0~3=0000B...
- Page 179 Chapter 11 Summary of Parameter SettingsCFP2000 Series Factory Settings Explanation Setting 0: STOP key disable 00-32 Digital Keypad STOP Function 1: STOP key enable 00-33 Reserved 00-47 00-48 Display Filter Time (Current) 0.001~65.535 sec 0.100 00-49 Display Filter Time (Keypad) 0.001~65.535 sec 0.100 00-50...
- Page 180 Chapter 11 Summary of Parameter SettingsCFP2000 Series 01 Basic Parameters Factory Explanation Settings Setting 0.75~75kW (1~100HP): 50.00~599.00Hz 60.00/ 01-00 Max. Operation Frequency 50.00 90kW (125HP): 0.00~400.00Hz 60.00/ 01-01 Output Frequency of Motor 1 0.00~599.00Hz 50.00 01-02 Output Voltage of Motor 1 400.0 0.0V~510.0V 01-03...
- Page 181 Chapter 11 Summary of Parameter SettingsCFP2000 Series Factory Explanation Settings Setting 0.20 Pr.01-45=0: 0.00~25.00 second 01-27 S-curve Deceleration Arrival Time 2 Pr.01-45=1: 0.0~250.0 second Skip Frequency 1 (upper limit) 01-28 0.00 0.00~599.00Hz Skip Frequency 1 (lower limit) 01-29 0.00 0.00~599.00Hz Skip Frequency 2 (upper limit) 01-30...
- Page 182 Chapter 11 Summary of Parameter SettingsCFP2000 Series 02 Digital Input/Output Parameters Factory Explanation Settings Setting 0: 2-wire mode 1, power on for operation control 02-00 2-wire/3-wire Operation Control 1: 2-wire mode 2, power on for operation control 2: 3-wire, power on for operation control Multi-function Input Command 1 02-01 0: No function...
- Page 183 Chapter 11 Summary of Parameter SettingsCFP2000 Series Factory Explanation Settings Setting 52: Selection for PLC mode bit1 53: Trigger CANopen quick stop 54: UVW Output Electromagnetic valve Switch 55: Brake release 56: Local/Remote Selection 57: Reserved 58: Enable fire mode (with RUN Command) 59: Enable fire mode (without RUN Command) 60: All motors disabled 61: Motor #1 disabled...
- Page 184 Chapter 11 Summary of Parameter SettingsCFP2000 Series Factory Explanation Settings Setting 18: Preliminary count value attained, returns to 0 (Pr.02-19) 19: Base Block 20: Warning output 21: Over voltage warning 22: Over-current stall prevention warning 23: Over-voltage stall prevention warning 24: Operation mode indication 25: Forward command 26: Reverse command...
- Page 185 Chapter 11 Summary of Parameter SettingsCFP2000 Series Factory Explanation Settings Setting 02-21 Reserved 60.00/ 02-22 Desired Frequency Attained 1 0.00~599.00Hz 50.00 The Width of the Desired 02-23 2.00 0.00~599.00Hz Frequency Attained 1 60.00/ 02-24 Desired Frequency Attained 2 0.00~599.00Hz 50.00 The Width of the Desired...
- Page 186 Chapter 11 Summary of Parameter SettingsCFP2000 Series 03 Analog Input/Output Parameters Factory Explanation Settings Setting 03-00 Analog Input Selection (AVI1) 0: No function 1: Frequency command (speed limit under torque 03-01 Analog Input Selection (ACI) control mode) 03-02 Analog Input Selection (AVI2) 2~3: Reserved...
- Page 187 Chapter 11 Summary of Parameter SettingsCFP2000 Series Factory Explanation Settings Setting 03-20 Multi-function Output 1 (AFM1) 0: Output frequency (Hz) 03-23 Multi-function Output 2 (AFM2) 1: Frequency command (Hz) 2: Motor speed (Hz) 3: Output current (rms) 4: Output voltage 5: DC Bus voltage 6: Power factor 7: Power...
- Page 188 Chapter 11 Summary of Parameter SettingsCFP2000 Series Factory Explanation Settings Setting 03-47 Reserved 03-49 0: Regular Curve 1: 3 point curve of AVI1 2: 3 point curve of ACI 3: 3 point curve of AVI1 & ACI 03-50 Analog Input Curve Selection 4: 3 point curve of AVI2 5: 3 point curve of AVI1 &...
- Page 189 Chapter 11 Summary of Parameter SettingsCFP2000 Series 04 Multi-step Speed Parameters Factory Explanation Settings Setting 04-00 1st Step Speed Frequency 0.00 0.00~599.00Hz 04-01 2nd Step Speed Frequency 0.00~599.00Hz 0.00 04-02 3rd Step Speed Frequency 0.00~599.00Hz 0.00 04-03 4th Step Speed Frequency 0.00~599.00Hz...
- Page 190 Chapter 11 Summary of Parameter SettingsCFP2000 Series 05 Motor Parameters Factory Explanation Settings Setting 0: No function 1: Rolling test for induction motor(IM) (Rs, Rr, Lm, Lx, no-load current) 05-00 Motor Auto Tuning 2: Static test for induction motor(IM) 5: Dynamic test for PM(SPM) motor 13: Stacic test for PM(IPM) motor Full-load Current of Induction 10~120% of drive’s rated current...
- Page 191 Chapter 11 Summary of Parameter SettingsCFP2000 Series Factory Explanation Settings Setting 05-27 Reserved Motor drive’s Accumulated 05-28 Operating Watt per Hour Read only (W-Hour) Motor drive’s Accumulated 05-29 Operating Kilowatt per Hour Read only (KW-Hour) Motor Drive’s Accumulated 05-30 Operating Megawatt per Hour Read only (MW-Hour) Accumulative Motor Operation...
- Page 192 Chapter 11 Summary of Parameter SettingsCFP2000 Series 06 Protection Parameters Factory Explanation Settings Setting 06-00 Low Voltage Level 360.0 300.0~440.0Vdc 06-01 Over-voltage Stall Prevention 760.0 700.0~900.0Vdc Selection for Over-voltage Stall 0: Traditional over-voltage stall prevention 06-02 Prevention 1: Smart over-voltage prevention Normal Load: 0~160%(100%: drive’s rated current) Over-current Stall Prevention...
- Page 193 Chapter 11 Summary of Parameter SettingsCFP2000 Series Factory Explanation Settings Setting 06-22 Fault Record 6 5: IGBT short-circuit (occ) 6: Over-current at stop (ocS) 7: Over-voltage during acceleration (ovA) 8: Over-voltage during deceleration (ovd) 9: Over-voltage during constant speed (ovn) 10: Over-voltage at stop (ovS) 11: Low-voltage during acceleration (LvA) 12: Low-voltage during deceleration (Lvd)
- Page 194 Chapter 11 Summary of Parameter SettingsCFP2000 Series Factory Explanation Settings Setting 74: FIRE mode output 75: Reserved 76: Safety Torque Off (STO) 77: Channel 2 (STO2~SCM2) internal hardware error (STL2) 78: Channel 1 and Channel 2 internal hardware error (STL3) 79: U phase over current (Uocc) 80: V phase over current (Vocc) 81: W phase over current (Wocc)
- Page 195 Chapter 11 Summary of Parameter SettingsCFP2000 Series Factory Explanation Settings Setting Motor Speed in rpm at Read 06-38 -32767~32767 rpm Malfunction only 06-39 Reserved Status of Multi-function Input Read 06-40 0000h~FFFFh Terminal at Malfunction only Status of Multi-function Output Read 06-41 0000h~FFFFh Terminal at Malfunction...
- Page 196 Chapter 11 Summary of Parameter SettingsCFP2000 Series Factory Explanation Settings Setting Read 06-66 Fault Record 2 (Min) 0~1439 min only Read 06-67 Fault Record 3 (Day) 0~65535 days only Read 06-68 Fault Record 3 (Min) 0~1439 min only Read 06-69 Fault Record 4 (Day) 0~65535 days only...
- Page 197 Chapter 11 Summary of Parameter SettingsCFP2000 Series 07 Special Parameters Factory Explanation Settings Setting 07-00 Software Brake Level 740.0 700.0~900.0Vdc 07-01 DC Brake Current Level 0~100% 07-02 DC Brake Time at RUN 0.0~60.0 sec. 07-03 DC Brake Time at Stop 0.0~60.0 sec.
- Page 198 Chapter 11 Summary of Parameter SettingsCFP2000 Series Factory Explanation Settings Setting 07-22 Energy-saving Gain 10~1000% 0: Enable AVR Auto Voltage Regulation(AVR) 07-23 1: Disable AVR Function 2: Disable AVR during deceleration Filter Time of Torque 07-24 Compensation (V/F and SVC 0.500 0.001~10.000 sec control mode)
- Page 199 Chapter 11 Summary of Parameter SettingsCFP2000 Series 08 High-function PID Parameters Factory Explanation Settings Setting 0: No function 1: Negative PID feedback: on analogue input acc. To setting 5 of Pr. 03-00 to Pr.03-02. 08-00 Input Terminal for PID Feedback 2~3: Reserved 4: Positive PID feedback from external terminal AVI (Pr.03-00)
- Page 200 Chapter 11 Summary of Parameter SettingsCFP2000 Series 09 Communication Parameters Factory Explanation Settings Setting 09-00 COM1 Communication Address 1~254 09-01 COM1 Transmission Speed 4.8~115.2Kbps 0: Warn and continue operation COM1 Transmission Fault 1: Warn and ramp to stop ...
- Page 201 0: 1M bps 1: 500K bps 2: 250K bps 09-37 CANopen Speed 3: 125K bps 4: 100K bps (Delta only) 5: 50K bps 09-38 Reserved bit 0: CANopen Guarding Time out bit 1: CANopen Heartbeat Time out bit 2: CANopen SYNC Time out...
- Page 202 09-70 (for DeviceNet and PROFIBUS) Profibus-DP: 1-125 Standard DeviceNet: 0: 125Kbps 1: 250Kbps 2: 500Kbps 3: 1Mbps (Delta Only) Nonstandard DeviceNet: (Delta Only) 0: 10Kbps Setting of DeviceNet Speed 09-71 1: 20Kbps (for DeviceNet and PROFIBUS) 2: 50Kbps...
- Page 203 Chapter 11 Summary of Parameter SettingsCFP2000 Series Factory Explanation Settings Setting 09-73 Reserved 09-74 Reserved IP Configuration of the 09-75 Communication Card 0~65535 (for MODBUS TCP) IP Address 1 of the 09-76 Communication Card 0~65535 (for MODBUS TCP) IP Address 2 of the ...
- Page 204 Chapter 11 Summary of Parameter SettingsCFP2000 Series Factory Explanation Settings Setting Bit 0: password enable Status of Communication Card When the communication card is set with 09-92 (for MODBUS TCP) password, this bit is enabled. When the password is clear, this bit is disabled. 11-30...
- Page 205 Chapter 11 Summary of Parameter SettingsCFP2000 Series 10 Speed Feedback Control Parameters NOTE IM: Induction Motor; PM: Permanent Magnet Motor Factory Explanation Settings Setting 10-00 Reserved 10-30 10-31 I/F Mode, current command 0~150%Irated (Rated current % of motor) PM Sensorless Observer ...
- Page 206 Chapter 11 Summary of Parameter SettingsCFP2000 Series 11 Advanced Parameters Group 11 Advanced Parameters are reserved. 11-32...
- Page 207 Chapter 11 Summary of Parameter SettingsCFP2000 Series 12 Pump Parameters Factory Explanation Settings Setting 0: No operation 1: Fixed Time Circulation (by time) 2: Fixed quantity circulation (by PID) Circulative Control 12-00 3: Fixed quantity control 4: Fixed Time Circulation+ Fixed quantity circulation 5: Fixed Time Circulation+ Fixed quantity control Number of motors to be From only 1 and up to 8 motors...
- Page 208 Chapter 11 Summary of Parameter SettingsCFP2000 Series 13 Application Parameters by Industry Factory Explanation Settings Setting 0: Disabled 1: User Parameter 13-00 Application selection 2: Compressor IM 3: Fan 4: Pump 13-01 1~99 00.00~14.99 00.00 Application Parameter 13-99 11-34...
-
Page 209: Chapter 12 Description Of Parameter Settings
Chapter 12 Description of Parameter Settings|CFP2000 Series Chapter 12 Description of Parameter Settings 12-1 Description of parameter settings 00 Drive Parameters This parameter can be set during operation. Identity Code of the AC Motor Drive Factory Setting: #.# Settings Read Only Display AC Motor Drive Rated Current Factory Setting: #.# Settings Read Only... - Page 210 Chapter 12 Description of Parameter Settings|CFP2000 Series When it is set to 5, KWH display value can be reset to 0 even when the drive is operating. Pr. 05-26, 05-27, 05-28, 05-29, 05-30 reset to 0. When it is set to 6: clear internal PLC program (includes the related settings of PLC internal CANopen master) When it is set to 7: reset the related settings of CANopen slave.
- Page 211 Chapter 12 Description of Parameter Settings|CFP2000 Series 19: The corresponding CPU pin status of digital input (d) (refer to NOTE 3) 20: The corresponding CPU pin status of digital output (O.) (refer to NOTE 21~24: Reserved 25: Overload counting (0.00~100.00%) (h.) (Refer to Note 6) (Unit: %) 26: GFF Ground Fault (G.) (Unit: %) 27: DC Bus voltage ripple (r.) (Unit: %) 28: Display PLC register D1043 data (C) display in hexadecimal...
- Page 212 Chapter 12 Description of Parameter Settings|CFP2000 Series N.O. switch status: Terminal MO20~MO17 MO16~MO13 MO12~MO10 Reserved Reserved RY3 Status At the meanwhile, if Pr.00-04 is set to 17 or 20, it will display in hexadecimal “0001h” with LED U is ON on the keypad. The setting 17 is the status of digital output by Pr.02-18 setting and the setting 20 is the corresponding CPU pin status of digital output.
- Page 213 Chapter 12 Description of Parameter Settings|CFP2000 Series directly. After setting, the value of 00-08 will become 1, which means password protection is activated. When the password is set, if any parameter setting needs to be changed, be sure to enter correct password in 00-07, and then the password will be inactivated temporarily with 00-08 changing to 0.
- Page 214 Chapter 12 Description of Parameter Settings|CFP2000 Series motors simultaneously. 2: (IM/PM Sensorless vector control): get the optimal control by the auto-tuning of motor parameters. When 00-10=0, and set Pr.00-11 to 0, the V/F control diagram is shown as follows. DC BUS DC BUS Voltage Voltage Pr otection...
- Page 215 Chapter 12 Description of Parameter Settings|CFP2000 Series the setting of carrier. Refer to chapter 9 (specifications) or Pr.00-01 for the rated current. Normal duty: over load ability is 120% rated output current in 60 second (over load ability is 160% rated output current in 3 second).
- Page 216 Chapter 12 Description of Parameter Settings|CFP2000 Series 3: External UP/DOWN terminal 6: CANopen communication card 8: Communication card (no CANopen card) It is used to set the source of the master frequency in AUTO mode. Pr.00-20 and 00-21 are for the settings of frequency source and operation source in AUTO mode. Pr.00-30 and 00-31 are for the settings of frequency source and operation source in HAND mode.
- Page 217 Chapter 12 Description of Parameter Settings|CFP2000 Series minimum output frequency (Pr. 01-09) and then stop (by Pr.01-07). Coast to stop: the AC motor drive stops the output instantly upon a STOP command and the motor free runs until it comes to a complete standstill. (1) It is recommended to use “ramp to stop”...
- Page 218 Chapter 12 Description of Parameter Settings|CFP2000 Series 010xh: ft/m 011xh: m 012xh: ft 013xh: degC 014xh: degF 015xh: mbar 016xh: bar 017xh: Pa 018xh: kPa 019xh: mWG 01Axh: inWG 01Bxh: ftWG 01Cxh: psi 01Dxh: atm 01Exh: L/s 01Fxh: L/m 020xh: L/h 021xh: m3/s 022xh: m3/h 023xh: GPM...
- Page 219 Chapter 12 Description of Parameter Settings|CFP2000 Series User Defined Value Factory Setting: Read only Settings Read only Pr.00-27 will show user defined value when Pr.00-26 is not set to 0. Switching from Auto mode to Hand mode Factory Setting: 0 Settings bit0: Sleep Function Control Bit 0: Sleep Function Control Bit...
- Page 220 Chapter 12 Description of Parameter Settings|CFP2000 Series disabled. When MI is set to 56 for LOC/REM selection, if Pr.00-29 is not set to 0, the external terminal has the highest priority of command and the ATUO/HAND keys will be disabled. Source of the Master Frequency Command(HAND)...
- Page 221 Chapter 12 Description of Parameter Settings|CFP2000 Series Display Filter Time (Current) Factory Settings: 0.100 Settings: 0.001~65.535 sec Set this parameter to minimize the current fluctuation displayed by digital keypad. Display Filter Time (Keypad) Factory Settings: 0.100 Settings: 0.001~65.535 sec Set this parameter to minimize the display value fluctuation displayed by digital keypad. Software Version (date) Factory Settings: #### Settings: Read only...
- Page 222 Chapter 12 Description of Parameter Settings|CFP2000 Series 01 Basic Parameters This parameter can be set during operation. Maximum Output Frequency Factory Setting: 60.00/50.00 Settings 50.00~599.00Hz Setting Range for /including 90kW(125HP) and above: 0.00~400.00Hz This parameter determines the AC motor drive’s Maximum Output Frequency. All the AC motor drive frequency command sources (analog inputs 0 to +10V, 4 to 20mA, 0 to 20mA) are scaled to correspond to the output frequency range.
- Page 223 Chapter 12 Description of Parameter Settings|CFP2000 Series Settings 0.0~480.0V Mid-point Frequency 1 of Motor 2 Factory Setting: 3.00 Settings 0.00~599.00Hz Mid-point Voltage 1 of Motor 2 Factory Setting: 22.0 Settings 0.0~480.0V Mid-point Frequency 2 of Motor 1 Factory Setting: 1.50 Settings 0.00~599.00Hz Mid-point Voltage 2 of Motor 1...
- Page 224 Chapter 12 Description of Parameter Settings|CFP2000 Series from it. Vol tage Output F requency 1s t Output 01-11 Output F requency Lower Limit 01-10 Upper Limi t Voltage Setting 01-02 F requenc y output 2nd Output ranges limitation Voltage Setting 01-04 Regul ar V /f Cur ve 3r d Output...
- Page 225 Chapter 12 Description of Parameter Settings|CFP2000 Series When start frequency is higher than the min. output frequency, drives’ output will be from start frequency to the setting frequency. Please refer to the following diagram for details. Fcmd=frequency command, Fstart=start frequency (Pr.01-09), fstart=actual start frequency of drive, Fmin=4th output frequency setting (Pr.01-07/Pr.01-41), Flow=output frequency lower limit (Pr.01-11)
- Page 226 Chapter 12 Description of Parameter Settings|CFP2000 Series Output Frequency Lower Limit Factory Setting: 0.00 Settings 0.0~599.00Hz The upper/lower output frequency setting is used to limit the actual output frequency. If the frequency setting is higher than the upper limit (01-10), it will run with the upper limit frequency. If output frequency lower than output frequency lower limit (01-11) and frequency setting is higher than min.
- Page 227 Chapter 12 Description of Parameter Settings|CFP2000 Series is 1.5Hz, it will operate by 10Hz when the frequency command is greater than Pr.01-07 and less than 10Hz. If the frequency command is less than Pr.01-07, the drive will be in ready status and no output.
- Page 228 Chapter 12 Description of Parameter Settings|CFP2000 Series Frequency 01-00 Max. O utput Frequency Frequency Setting Time accel. time decel. time 01-13,15,17,19,21 01-12,14,16,18,20 Accel./Decel. Time JOG Frequency Factory Setting: 6.00 Settings 0.00~599.00Hz Both external terminal JOG and key “F1” on the keypad KPC-CC01 can be used. When the jog command is ON, the AC motor drive will accelerate from 0Hz to jog frequency (Pr.01-22).
- Page 229 Chapter 12 Description of Parameter Settings|CFP2000 Series S-curve Acceleration Begin Time 1 S-curve Acceleration Arrival Time 2 S-curve Deceleration Begin Time 1 S-curve Deceleration Arrival Time 2 Factory Setting: 0.20/0.2 Settings Pr.01-45=0: 0.00~25.00 seconds Pr.01-45=1: 0.00~250.0 seconds It is used to give the smoothest transition between speed changes. The accel./decel. curve can adjust the S-curve of the accel./decel.
- Page 230 Chapter 12 Description of Parameter Settings|CFP2000 Series 01- 28 fa ll in g fr eq ue ncy 01- 29 Inter nal 01- 30 frequency 01- 31 command 01- 32 r isi ng fre qu en cy 01- 33 F requenc y s etting command Zero-speed Mode Factory Setting: 0 Settings...
- Page 231 Chapter 12 Description of Parameter Settings|CFP2000 Series chosen. Choose a V/F curve suitable for your application then set Pr01-43 by following the V/F curve chosen. The set values of Pr01-00 ~Pr01-08 can be verified and fine-tuned. NOTE If the V/F curve is not selected properly, it may result motor to generate insufficient torque or may lead to high current output due to overfluxing.
- Page 232 Chapter 12 Description of Parameter Settings|CFP2000 Series Optimal Acceleration/Deceleration Setting Factory Setting: 0 Settings 0: Linear accel./decel. 1: Auto accel., linear decel. 2: Linear accel., auto decel. 3: Auto accel./decel. (auto calculate the accel./decel. time by actual load) 4: Stall prevention by auto accel./decel. (limited by 01-12 to 01-21) Setting 0 Linear accel./decel.: it will accelerate/decelerate according to the setting of Pr.01-12~01-19.
- Page 233 Chapter 12 Description of Parameter Settings|CFP2000 Series Reserved Reserved Deceleration Method Factory Setting: 0 Settings 0: Normal decel. 1: Over fluxing decel. 2: Traction energy control When Pr01-49=0, the deceleration or stop will according to original deceleration method. When Pr01-49=1: drive will control the deceleration time according to the Pr06-01 setting value and DC BUS voltage.
- Page 234 Chapter 12 Description of Parameter Settings|CFP2000 Series 02 Digital Input/Output Parameter This parameter can be set during operation. 2-wire/3-wire Operation Control Factory Setting: 0 Settings 0: 2 wire mode 1 1: 2 wire mode 2 2: 3 wire mode It is used to set the operation control method: Pr.02-00 Control Circuits of the External Terminal 2-wire mode 1...
- Page 235 Chapter 12 Description of Parameter Settings|CFP2000 Series Input terminal of I/O extension card (MI13) Input terminal of I/O extension card (MI14) Input terminal of I/O extension card (MI15) Factory Setting: 0 Settings 0: no function 1: multi-step speed command 1/multi-step position command 1 2: multi-step speed command 2/multi-step position command 2 3: multi-step speed command 3/multi-step position command 3 4: multi-step speed command 4/multi-step position command 4...
- Page 236 Chapter 12 Description of Parameter Settings|CFP2000 Series 63: Motor #3 disabled 64: Motor #4 disabled 65: Motor #5 disabled 66: Motor #6 disabled 67: Motor #7 disabled 68: Motor #8 disabled 69: Preheating Command This parameter selects the functions for each multi-function terminal. The terminals of Pr.02-26~Pr.02-29 are virtual and set as MI10~MI13 when using with optional card EMC-D42A.
- Page 237 Chapter 12 Description of Parameter Settings|CFP2000 Series Settings Functions Descriptions When this function is enabled, acceleration and deceleration is stopped. After this function is disabled, the AC motor drive starts to accel./decel. from the inhibit point. Fr eq ue ncy S etti ng A ccel .
- Page 238 Chapter 12 Description of Parameter Settings|CFP2000 Series Settings Functions Descriptions Switch between drive When the contact of this function is ON: use motor 2 parameters. settings 1 and 2 OFF: use motor 1 parameters. When the contact of this function is ON, the source of the frequency will force to be AVI.
- Page 239 Chapter 12 Description of Parameter Settings|CFP2000 Series Settings Functions Descriptions Signal confirmation for When is the contact of this function is ON, the drive will operate by Y-connection 1st V/f. Signal confirmation for When the contact of this function is ON, the drive will operate by Δ-connection 2nd V/f.
- Page 240 Chapter 12 Description of Parameter Settings|CFP2000 Series Settings Functions Descriptions Use Pr.00-29 to select for LOCAL/REMOTE mode (refer to Pr.00-29). When Pr.00-29 is not set to 0, on the digital keypad KPC-CC01 it will display LOC/REM status. (It will display on the KPC-CC01 if the LOCAL/REMOTE firmware version is above version 1.021).
- Page 241 Chapter 12 Description of Parameter Settings|CFP2000 Series increase/decrease by using Up/Down key is effective only when the drive is at Running status. Pr.02-09 set to 0: it will increase/decrease frequency command (F) by the setting of acceleration/deceleration (Pr.01-12~01-19) Fr eq ue n cy Fr eq ue n cy co mma nd Inc re as ed b y ac cel e ra tio n tim e...
- Page 242 Chapter 12 Description of Parameter Settings|CFP2000 Series Bit0 is for FWD terminal, bit1 is for REV terminal and Bit2 to Bit15 is for MI1 to MI14. User can change terminal status by communicating. For example, MI1 is set to 1 (multi-step speed command 1), MI2 is set to 2 (multi-step speed command 2).
- Page 243 Chapter 12 Description of Parameter Settings|CFP2000 Series 11: Malfunction indication 12: Mechanical brake release (Pr.02-32) 13: Overheat warning (Pr.06-15) 14: Software brake signal indication (Pr.07-00) 15: PID feedback error 16: Slip error (oSL) 17: Terminal count value attained (Pr.02-20; not return to 0) 18: Preliminary count value attained (Pr.02-19;...
- Page 244 Chapter 12 Description of Parameter Settings|CFP2000 Series Motor #1 Output Motor #2 Output Motor #3 Output Motor#4 Output Motor#5 Output Motor #6 Output Motor#7 Output Motor#8 Output 63~65: Reserved 66: SO contact A (N.O.) 67: Analog input signal level achieved 68: SO contact B (N.C.) 69: Output Command of Preheating This parameter is used for setting the function of multi-function terminals.
- Page 245 Chapter 12 Description of Parameter Settings|CFP2000 Series Settings Functions Descriptions voltage level) Malfunction Indication Active when fault occurs (except Lv stop). When drive runs after Pr.02-32, it will be ON. This function should Mechanical Brake be used with DC brake and it is recommended to use contact “b” Release (Pr.02-32) (N.C).
- Page 246 Chapter 12 Description of Parameter Settings|CFP2000 Series Settings Functions Descriptions △ -connection for the Active when PR.05-24=1, when frequency output is higher than Motor Coil Pr.05-23 plus 2Hz, continues longer than 05-25. Zero Speed (actual Active when the actual output frequency is 0. (the drive should be output frequency) at RUN mode) Zero Speed with Stop...
- Page 247 Chapter 12 Description of Parameter Settings|CFP2000 Series Settings Functions Descriptions AC Driver Motor U(T1) V(T2) W(T3) MOx=45 MIx=49 Reserved When drive stops, the corresponding multi-function terminal will be ON if the frequency is less than Pr.02-34. After it is ON, it will be OFF when brake delay time exceeds Pr.02-32.
- Page 248 Chapter 12 Description of Parameter Settings|CFP2000 Series Settings Functions Descriptions Output for RS-485 For RS485 output. For communication output of communication cards (CMC-MOD01, CMC-EIP01, CMC-PN01 and CMC-DN01) Setting of Physical Corresponding related Attribute terminal Address parameters P2-13 = 51 The Bit 0 of 2640 P2-14 = 51 The Bit 1 of 2640 P2-15 = 51...
- Page 249 Chapter 12 Description of Parameter Settings|CFP2000 Series Settings Functions Descriptions 03-46: The low level of analog input, factory setting is 10%. If analog input > 03-45, then multi-function output terminal operates. If analog input < 03-46, then multi-function output terminal stops outputting.
- Page 250 Chapter 12 Description of Parameter Settings|CFP2000 Series make the drive runs from the low speed to stop. 1.0msec Di spl ay va lu e [00 -04 =0 1] [02-06=23] Counter Trigger 1.0msec Th e wi dth of tr ig ge r si gn al ( ou tpu t sig na l) P re li min ar y Cou nte r V al ue 02 -20=3...
- Page 251 Chapter 12 Description of Parameter Settings|CFP2000 Series Factory Setting: 0.000 Settings 0.000~65.000 sec When the AC motor drive runs after Pr.02-32 delay time, the corresponding multi-function output terminal (12: mechanical brake release) will be ON. It has to use this function with DC brake. frequ ency comma nd 07 -0 3...
- Page 252 Chapter 12 Description of Parameter Settings|CFP2000 Series Factory Setting: 0 Settings 0~100% When output current is higher or equal to Pr.02-33, it will activate multi-function output terminal (Pr.02-13, 02-14, 02-16, and 02-17 is set to 27). When output current is lower or equal to Pr.02-33, it will activate multi-function output terminal (Pr.02-13, 02-14, 02-16, and 02-17 is set to 28).
- Page 253 Chapter 12 Description of Parameter Settings|CFP2000 Series If Pr.02-50 displays 0034h (Hex), i.e. the value is 52, and 110100 (binary). It means MI1, MI3 and MI4 are active. Status of Multi-function Output Terminal Factory Setting: Read only For Example: If Pr.02-51 displays 000Bh (Hex), i.e. the value is 11, and 1011 (binary). It means RY1, RY2 and MO1 are ON.
- Page 254 Chapter 12 Description of Parameter Settings|CFP2000 Series When Pr.02-52 displays 0034h(hex) and switching to 110100 (binary), it means MI1, MI3 and MI4 are used by PLC. Display External Multi-function Output Terminal occupied by PLC Factory Setting: Read only P.02-53 shows the external multi-function output terminal that used by PLC. For Example: If the value of Pr.02-53 displays 0003h (Hex), it means RY1and RY2 are used by PLC.
- Page 255 Chapter 12 Description of Parameter Settings|CFP2000 Series Factory Setting: Read only Settings 0.01~599.00Hz (Read only) When the source of frequency command comes from the external terminal, if Lv or Fault occurs at this time, the frequency command of the external terminal will be saved in this parameter. Reserved Reserved IO Card Type...
- Page 256 Chapter 12 Description of Parameter Settings|CFP2000 Series Parameter Description Setting Range Explanation 02-72 Output Current 0~100% (Rated Current of the Motor) Level of Preheating 0% No output 02-73 Output Cycle of 0~100% (0~10sec) Preheating 0% No output 100% Continuous output 02-01~08 Multi-Input Function 69 Preheating Command...
- Page 257 Chapter 12 Description of Parameter Settings|CFP2000 Series Sequential Diagram of the Preheating Function: Setting Parameters to Enable Preheating (Function A) Set Pr02-72 and Pr02-73 not equal to zero (Diagram 50%) and stop running the motor drive, then the preheating will be enabled to output DC current. In the meantime, MFO (Output Command of Preheating) will be ON (MFO =69).
- Page 258 Chapter 12 Description of Parameter Settings|CFP2000 Series Enable DC Brake Function DC brake and preheating are enabled at the same time. The motor drive operates in the same logic as mentioned above. The only difference is that when the motor drive is in operation (RUN) or stops operating (STOP), DC brake will be enabled first.
- Page 259 Chapter 12 Description of Parameter Settings|CFP2000 Series 03 Analog Input/Output Parameter This parameter can be set during operation. Analog Input Selection (AVI1) Factory Setting: 1 Analog Input Selection (ACI) Factory Setting: 0 Analog Input Selection (AVI2) Factory Setting: 0 Settings 0: No function 1: Frequency command (speed limit under torque control mode) 2~3: Reserved...
- Page 260 Chapter 12 Description of Parameter Settings|CFP2000 Series Reserved Positive/negative Bias Mode (AVI1) Positive/negative Bias Mode (ACI) Positive/negative Bias Mode (AVI2) Factory Setting: 0 Settings 0: Zero bias 1: Lower than or equal to bias 2: Greater than or equal toe bias 3: The absolute value of the bias voltage while serving as the center 4: Serve bias as the center In a noisy environment, it is advantageous to use negative bias to provide a noise margin.
- Page 261 Chapter 12 Description of Parameter Settings|CFP2000 Series Pr.03-03=10% Frequency Pr.03-07~03-09 (Positive/N egative Bias Mode) 60Hz 0: N o bias Low er than or equal to bias 2: Greater than or equal to bias 3: T he absolute value of the bias voltage while serving as the center 4: Serve bias as the center Pr.03-10...
- Page 262 Chapter 12 Description of Parameter Settings|CFP2000 Series Pr.03-03=10% F requency Pr.03-07~03-09 (Positive/N egative Bias Mode) 60Hz 0: No bias Lower than or equal to bias 54Hz 2: Greater than or equal to bias 3: T he absolute value of the bias voltage while serving as the center 4: Serve bias as the center Pr.03-10...
- Page 263 Chapter 12 Description of Parameter Settings|CFP2000 Series Pr.03-03=10% F requency Pr.03-07~03-09 (Positive/Negative Bias Mode) 60Hz 0: No bias 54Hz Lower than or equal to bias 2: Greater than or equal to bias 3: T he absolute value of the bias voltage w hile serving as the center 4: Serve bias as the center Pr.03-10...
- Page 264 Chapter 12 Description of Parameter Settings|CFP2000 Series F requency Pr.03-03=-10% Pr.03-07~03-09 (Positive/Negative Bias Mode) 60Hz 0: No bias Lower than or equal to bias 2: Greater than or equal to bias 3: T he absolute value of the bias voltage w hile serving as the center 4: Serve bias as the center Pr.03-10...
- Page 265 Chapter 12 Description of Parameter Settings|CFP2000 Series F requency Pr.03-03=-10% 60Hz Pr.03-07~03-09 (Positive/N egative Bias Mode) 0: No bias Lower than or equal to bias 2: Greater than or equal to bias 3: T he absolute value of the bias voltage while serving as the center 4: Serve bias as the center Pr.03-10...
- Page 266 Chapter 12 Description of Parameter Settings|CFP2000 Series F requency Pr.03-03=-10% Pr.03-07~03-09 (Positive/N egative Bias Mode) 60Hz 0: No bias Lower than or equal to bias 2: Greater than or equal to bias 3: T he absolute value of the bias voltage w hile serving as the center 4: Serve bias as the center Pr.03-10...
- Page 267 Chapter 12 Description of Parameter Settings|CFP2000 Series F requency Pr.03-03=10% Pr.03-07~03-09 (Positive/Negative Bias Mode) 60Hz 0: N o bias Low er than or equal to bias 2: Greater than or equal to bias 3: T he absolute value of the bias voltage while serving as the center 4: Serve bias as the center Pr.03-10...
- Page 268 Chapter 12 Description of Parameter Settings|CFP2000 Series F requency Pr.03-03=10% Pr.03-07~03-09 (Positive/Negative Bias Mode) 60Hz 0: N o bias Low er than or equal to bias 2: Greater than or equal to bias 3: T he absolute value of the bias voltage while serving as the center 4: Serve bias as the center 6.66Hz...
- Page 269 Chapter 12 Description of Parameter Settings|CFP2000 Series 12.1-03-11...
- Page 270 Chapter 12 Description of Parameter Settings|CFP2000 Series 12.1-03-12...
- Page 271 Chapter 12 Description of Parameter Settings|CFP2000 Series Pr.00-21=0 (D gital keypad control and d run in F WD direction) Analog Positive Voltage Input Bias (AUI) = 10% Pr.03-05 F requency Pr.03-07~03-09 (Positive/Negative Bias Mode) 60Hz 0: No bias 54Hz 1: Lower than or equal to bias 2: Greater than or equal to bias 3: T he absolute value of the bias voltage while serving as the center...
- Page 272 Chapter 12 Description of Parameter Settings|CFP2000 Series Pr.00-21=0 (Dgital keypad control and d run in F WD direction) F requency Analog Positive Voltage Input Bias (AUI) = 10% Pr.03-05 Pr.03-07~03-09 (Positive/N egative Bias Mode) 60Hz 0: N o bias 54Hz 1: Lower than or equal to bias 2: Greater than or equal to bias 3: T he absolute value of the bias voltage...
- Page 273 Chapter 12 Description of Parameter Settings|CFP2000 Series 12.1-03-15...
- Page 274 Chapter 12 Description of Parameter Settings|CFP2000 Series Pr.00-21=0 (Digital keypad control and run in F WD direction F requency Pr.03-05 Analog Positive Voltage Input Bias (AUI) = 10% Pr.03-07~03-09 (Positive/Negative Bias Mode) 60Hz 0: No bias Lower than or equal to bias 2: Greater than or equal to bias 3: T he absolute value of the bias voltage while serving as the center...
- Page 275 Chapter 12 Description of Parameter Settings|CFP2000 Series Pr.00-21=0 (Digital keypad control and run in F WD direction F requency Pr.03-05 Analog Positive Voltage Input Bias (AUI) = 10% Pr.03-07~03-09 (Positive/Negative Bias Mode) 60Hz 0: No bias Lower than or equal to bias 2: Greater than or equal to bias 3: T he absolute value of the bias voltage while serving as the center...
- Page 276 Chapter 12 Description of Parameter Settings|CFP2000 Series Analog Input Gain (AVI1) Analog Input Gain (ACI) Analog Positive Input Gain (AVI2) Analog Negative Input Gain (AVI2) Factory Setting: 100.0 Settings -500.0~500.0% Parameters 03-03 to 03-14 are used when the source of frequency command is the analog voltage/current signal.
- Page 277 Chapter 12 Description of Parameter Settings|CFP2000 Series faster but the control may be unstable. To find the optimal setting, please adjust the setting according to the control stable or response status. Addition Function of the Analog Input Factory Setting: 0 Settings 0: Disable (AVI1, ACI, AVI2) 1: Enable...
- Page 278 Chapter 12 Description of Parameter Settings|CFP2000 Series Multi-function Output 1 (AFM1) Factory Setting: 0 Multi-function Output 2 (AFM2) Factory Setting: 0 Settings 0~23 Function Chart Settings Functions Descriptions Output frequency (Hz) Max. frequency Pr.01-00 is regarded as 100%. Frequency command (Hz) Max.
- Page 279 Chapter 12 Description of Parameter Settings|CFP2000 Series Settings 0: Absolute value in REV direction 1: Output 0V in REV direction; output 0-10V in FWD direction 2: Output 5-0V in REV direction; output 5-10V in FWD direction 10V( 20mA) 10V( 20mA) 10V( 20mA) 03-18 03-21...
- Page 280 Chapter 12 Description of Parameter Settings|CFP2000 Series Status of PLC Output Terminal Factory Setting: 0000h Settings 0~65535 Monitor the status of PLC analog output terminals P.03-30 shows the external multi-function output terminal that used by PLC. 0=O N 1=O FF Weights 15 14 13 12...
- Page 281 Chapter 12 Description of Parameter Settings|CFP2000 Series AFM1 Filter Output Time AFM2 Filter Output Time Factory Setting: 0.01 Settings 0.00~20.00 Seconds Reserved MO by AI level Factory Setting: 0 Settings 0: AVI1 1: ACI 2: AVI2 AI Upper level Factory Setting: 50.00% Settings -100.00%~100.00% AI Lower level...
- Page 282 Chapter 12 Description of Parameter Settings|CFP2000 Series Set Pr03-50 =2, ACI is calculated by using frequency and voltage/current in corresponding format (Pr03-57 ~ Pr03-62), other analog input signals are calculated by using bias and gain. Set Pr03-50 =3, AVI1 and ACI are calculated by using frequency and voltage/current in corresponding format (Pr03-51 ~ Pr03-62), other analog input signals are calculated by using bias and gain.
- Page 283 Chapter 12 Description of Parameter Settings|CFP2000 Series The 3 parameters (Pr03-51, Pr03-53 and Pr03-53) must meet the following argument: P03-51 < P03-53 < P03-55. The 3 proportional points (Pr03-52, Pr03-54 and Pr03-56) doesn’t have any limit. Between two points is a linear calculation. The ACI and AVI2 are same as AVI1. The output % will become 0% when the AVI input value is lower than low point setting.
- Page 284 Chapter 12 Description of Parameter Settings|CFP2000 Series ACI Low Point Factory Setting: 4.00 Settings Pr.03-29=1, 0.00~10.00V Pr.03-29≠1, 0.00~20.00mA ACI Proportional Low Point Factory Setting: 0.00 Settings 0.00~100.00% ACI Mid Point Factory Setting: 12.00 Settings 03-29=1, 0.00~10.00V 03-29≠1, 0.00~20.00mA ACI Proportional Mid Point Factory Setting: 50.00 Settings 0.00~100.00%...
- Page 285 Chapter 12 Description of Parameter Settings|CFP2000 Series Positive AVI2 Voltage Mid Point Factory Setting: 5.00 Settings 0.00~10.00V Positive AVI2 Voltage Proportional Mid Point Factory Setting: 50.00 Settings 0.00%~100.00% Positive AVI2 Voltage High Point Factory Setting: 10.00 Settings 0.00~10.00V Positive AVI2 Voltage Proportional High Point Factory Setting: 100.00 Settings 0.00%~100.00%...
- Page 286 Chapter 12 Description of Parameter Settings|CFP2000 Series 04 Multi-Step Speed Parameters This parameter can be set during operation. 1st Step Speed Frequency 2nd Step Speed Frequency 3rd Step Speed Frequency 4th Step Speed Frequency 5th Step Speed Frequency 6th Step Speed Frequency 7th Step Speed Frequency 8th Step Speed Frequency 9th Step Speed Frequency...
- Page 287 Chapter 12 Description of Parameter Settings|CFP2000 Series 04-07 F requenc y 04-06 04-08 04-05 04-09 04-04 04-10 04-03 04-11 04-02 04-12 J OG Freq. 04-01 01-22 04-13 04-00 04-14 Master Spee d 10 11 12 13 14 15 Run/ Sto p PU/ ext ernal t erminals /c ommu nicat ion 1s t s pee d...
- Page 288 Chapter 12 Description of Parameter Settings|CFP2000 Series PLC Buffer 18 PLC Buffer 19 Factory Setting: 0 Settings 0~65535 The Pr 04-50~Pr04-69 can be combined with PLC or HMI programming for variety application. 12.1-04-3...
- Page 289 Chapter 12 Description of Parameter Settings|CFP2000 Series 05 Motor Parameters This parameter can be set during operation. Motor Auto Tuning Factory Setting: 0 Settings 0: No function 1: Rolling test for induction motor(IM) (Rs, Rr, Lm, Lx, no-load current) [motor running] 2: Static test for induction motor [motor not running] 5: Dynamic test for PM (SPM) motor [motor running] 13: Static test for PM(IPM) motor...
- Page 290 Chapter 12 Description of Parameter Settings|CFP2000 Series NOTE When auto-tuning 2 motors, it needs to set multi-function input terminals (setting 14) or change Pr.05-22 for motor 1/motor 2 selection. The no-load current is usually 20~50% X rated current. The rated speed can not be greater than or equal to 120f/p (f = rated frequency Pr.01-01/01-35;...
- Page 291 Chapter 12 Description of Parameter Settings|CFP2000 Series For model with 110kW and above, default setting is 20% motor rated current. Stator Resistance(Rs) of Induction Motor 1 Rotor Resistance(Rr) of Induction Motor 1 Factory Setting: #.### Settings 0~65.535Ω Magnetizing Inductance(Lm) of Induction Motor 1 Stator inductance(Lx) of Induction Motor 1 Factory Setting: #.# Settings...
- Page 292 Chapter 12 Description of Parameter Settings|CFP2000 Series Settings 0 to the factory setting in Pr.05-13 The factory setting is 40% motor rated current. For model with 90kW and above, default setting is 20% motor rated current. Stator Resistance (Rs) of Induction Motor 2 Rotor Resistance (Rr) of Induction Motor 2 Factory Setting: 0.000 Settings...
- Page 293 Chapter 12 Description of Parameter Settings|CFP2000 Series -con necti on is fin ishe d Pr.02-01 ~08 =30 -con necti on c ontrol Y-c onnec tion is finis hed Pr.02-13 ~14 =32 Pr.02-01 ~08 =29 Y-c onnec tion con tro l Pr.02-11~14=31 connection switch: can be used for wide range motor Y -connection for low speed: higher torque can be used for rigid tapping...
- Page 294 Chapter 12 Description of Parameter Settings|CFP2000 Series Reserved Reserved Motor drive’s Accumulated Operating Watt per Hour (W-Hour) Factory Setting: 0.0 Settings Read only Motor drive’s Accumulated Operating Kilowatt per Hour (KW-Hour) Factory Setting: 0.0 Settings Read only Motor Drive’s Accumulated Operating Megawatt per Hour (MW-Hour) Factory Setting: 0.0 Settings Read only...
- Page 295 Chapter 12 Description of Parameter Settings|CFP2000 Series Rated Power of Permanent Magnet Motor Factory Setting: 0.00 Settings 0.00~655.35 kW Set motor rated power in accord to motor nameplate. Default setting is motor drive rated power. Rated speed of Permanent Magnet Motor Factory Setting: 2000 Settings 0~65535 rpm...
- Page 296 Chapter 12 Description of Parameter Settings|CFP2000 Series 06 Protection Parameters This parameter can be set during operation. Low Voltage Level Factory Setting: 360.0 Settings 300.0~440.0Vdc This parameter is used to set the Low Voltage level. When the DC BUS voltage is lower than Pr.06-00, drive will stop output and free to stop.
- Page 297 Chapter 12 Description of Parameter Settings|CFP2000 Series load, the over-voltage won’t occur during deceleration and fulfill the setting of deceleration time. Sometimes, it may not stop due to over-voltage during decelerating to stop when increasing the load regenerative inertia. At this moment, the AC drive will auto add the deceleration time until drive stop.
- Page 298 Chapter 12 Description of Parameter Settings|CFP2000 Series 2. Add brake resistor (refer to Chapter 7-1 for details) to dissipate the electrical energy that regenerated from the motor as heat type. Related parameters: Pr.01-13, Pr.01-15, Pr.01-17, Pr.01-19 Decel. Time 1~4, Pr.02-13~Pr.02-14 Multiple-function output (Relay 1 and 2), Pr.02-16~Pr.02-17 Multiple-function output (MO1,2), and Pr.06-01 over-voltage stall prevention.
- Page 299 Chapter 12 Description of Parameter Settings|CFP2000 Series during motor constant operation. If the output current exceeds the setting specified in Pr.06-04 when the drive is operating, the drive will decrease its output frequency (according to Pr.06-05) to prevent the motor stall. If the output current is lower than the setting specified in Pr.06-04, the drive will accelerate (according to Pr.06-05) again to catch up with the set frequency command value.
- Page 300 Chapter 12 Description of Parameter Settings|CFP2000 Series 4: Stop after Over-torque detection during RUN When Pr.06-06 and Pr.06-09 are set to 1 or 3, it will display a warning message and won’t have an abnormal record. When Pr.06-06 and Pr.06-09 are set to 2 or 4, it will display a warning message and will have an abnormal record.
- Page 301 Chapter 12 Description of Parameter Settings|CFP2000 Series Ove r-t orque det ect ion leve l 06-07 (06-10) Out put current Manually reset Multi-fu nct ion outpu t terminal=7 or 8 O ver-torqu e dete ction time 06-08 (06-11) Current Limit Factory Setting: 150 Settings 0~200% (100%: drive’s rated current)
- Page 302 Chapter 12 Description of Parameter Settings|CFP2000 Series “EoL1/EoL2” and the motor will be in free running. This parameter is to set the action time of electronic thermal relay. It works based on the I2t characteristic curve of electronic thermal relay, output frequency and current of motor drive, and operation time to prevent motor from over-heat.
- Page 303 Chapter 12 Description of Parameter Settings|CFP2000 Series When using normal duty or general control mode, the OH warning will be disabled if Pr06-15 is set to 110℃. When the temperature reaches 110℃, motor drive will stop with IGBT over-heat fault. Stall Prevention Limit Level (Flux weakening area current stall prevention level) Factory Setting: 50 Settings...
- Page 304 Chapter 12 Description of Parameter Settings|CFP2000 Series 31: Memory read-out error (cF2) 32: Reserved 33: U-phase current detection error (cd1) 34: V-phase current detection error (cd2) 35: W-phase current detection error (cd3) 36: Clamp current detection error (Hd0) 37: Over-current detection error (Hd1) 38: Over-voltage detection error (Hd2) 39: occ IGBT short circuit detection error (Hd3) 40: Auto tuning error (AUE)
- Page 305 Chapter 12 Description of Parameter Settings|CFP2000 Series Lvd, Lvn error, will record). Setting 62: when dEb function is enabled, the drive will execute dEb and record to the Pr.06-17 to Pr.06-22 simultaneously. Fault Output Option 1 Fault Output Option 2 Fault Output Option 3 Fault Output Option 4 Factory Setting: 0...
- Page 306 Chapter 12 Description of Parameter Settings|CFP2000 Series Bit0 Bit1 Bit2 Bit3 Bit4 Bit5 Bit6 Fault Code current Volt. ● 31: Memory read-out error (cF2) 32: Reserved ● 33: U-phase current detection error (cd1) ● 34: V-phase current detection error (cd2) ●...
- Page 307 Chapter 12 Description of Parameter Settings|CFP2000 Series Bit0 Bit1 Bit2 Bit3 Bit4 Bit5 Bit6 Fault Code current Volt. ● 79: U phase over current (Uocc) ● 80: V phase over current (Vocc) ● 81: W phase over current (Wocc) ● 82: OPHL U phase output phase loss ●...
- Page 308 Chapter 12 Description of Parameter Settings|CFP2000 Series Output Frequency at Malfunction Factory Setting: Read only Settings 0.00~655.35Hz When malfunction occurs, use can check the current frequency command. If it happens again, it will overwrite the previous record. Output Voltage at Malfunction Factory Setting: Read only Settings 0.0~6553.5V...
- Page 309 Chapter 12 Description of Parameter Settings|CFP2000 Series Status of Multi-function Input Terminal at Malfunction Factory Setting: Read only Settings 0000h~FFFFh Status of Multi-function Output Terminal at Malfunction Factory Setting: Read only Settings 0000h~FFFFh When malfunction occurs, user can check the status of multi-function input/output terminals. If it happens again, it will overwrite the previous record.
- Page 310 Chapter 12 Description of Parameter Settings|CFP2000 Series Output phase loss detection function executing time before run Factory Setting:0.000 Settings 0.000~65.535 sec When Pr.06-48 is 0, OPHL detection function will be disabled Status 1:Motor drive is in operation Any phase is less than Pr.06-47 setting level, and exceeds Pr.06-46 setting time, motor drive will perform Pr.06-45 setting.
- Page 311 Chapter 12 Description of Parameter Settings|CFP2000 Series Sta tus 3-1: P r0 6-48 0, Pr07 -0 2 0 (No OPHL d e tected be fore ope ra tion ) ≠ ≠ Driv e’s s tat us Operat io n co mman d OPHL det ect io n ac ts OP HL det ect ion ac tion No OPHL detec ted...
- Page 312 Chapter 12 Description of Parameter Settings|CFP2000 Series Sta tus 4-1: P r0 6-48 0, Pr07 -0 2=0 (N o OPH L d etected b efore op eratio n) ≠ Drive ’s st atus Operation command O PHL detection acts OP HL de tec tion ac tion No OPHL detec ted O PHL detec tion 20 *[P r06-47 ]...
- Page 313 Chapter 12 Description of Parameter Settings|CFP2000 Series Ripple of Input Phase Loss Factory Setting: 60.0 Settings 0.0~320.0 Vdc When the DC BUS ripple is higher than Pr.06-52, and continue Pr.06-50 plus 30 seconds, drive will trip up OrP and act depending on the setting of Pr.06-53 to stop. In the time period Pr.06-50 plus 30 seconds, if the DC BUS ripple is lower than Pr.06-52, the OrP protection counter will be restart.
- Page 314 Chapter 12 Description of Parameter Settings|CFP2000 Series current. When it outputs higher than the value, it will auto decrease the carrier frequency. If the output is 83% rated current and the carrier frequency will decrease to 12kHz. In addition, it will also decrease the carrier frequency when overload.
- Page 315 Chapter 12 Description of Parameter Settings|CFP2000 Series Derating for Ambient Temperature Operating at Normal Duty Condition / Light Duty(Derating Fc) UL Open Type_side by side UL Type I Ambient Temperature (℃) PT100 Detection Level 1 Factory Setting:5.000 Settings 0.000~10.000V PT100 Detection Level 2 Factory Setting: 7.000 Settings 0.000~10.000V Make sure Pr.
- Page 316 Chapter 12 Description of Parameter Settings|CFP2000 Series L e ve l 2 0 6 -5 7 Se tti n g ra n g e 0 .0 0 0 1 0 .0 0 0 V Fa cto ry se tti n g : 7 .0 0 0 V L e ve l 1 0 6 -5 6 Se tti n g ra n g e : 0 .0 0 0 1 0 .0 0 0 V Fa cto ry se tti n g : 5 .0 0 0 V...
- Page 317 Chapter 12 Description of Parameter Settings|CFP2000 Series 6. Set Pr.06-57=1.42 and Pr.06-29=1 (warning and decelerate to stop). When RTD temperature increases to 150℃ or higher, the drive will decelerate to stop and outputs an ‘OH3’ warning. Software Detection GFF Current Level Factory Setting: 60.0 Settings 0.0~6553.5 %...
- Page 318 Chapter 12 Description of Parameter Settings|CFP2000 Series 06-21 06-22 06-63 1000 1120 06-64 06-65 1000 1120 06-66 06-67 1000 1120 06-68 06-69 1000 06-70 ※ From time record, it can be known that the last fault (Pr.06-17) happened after the drive run for 4days and 240 minutes.
- Page 319 Chapter 12 Description of Parameter Settings|CFP2000 Series Fire Mode Factory Setting: 0.00 Settings 0: No Function 1: Forward Operation 2: Reverse Operation This parameter needs to work with multi-input function terminal #58 or #59 and multi-output function terminal #53 and #54. Setting is 0: Fire mode is disabled Setting is 1: When there is a fire, motors will operate clockwisely (U, V.W).
- Page 320 Chapter 12 Description of Parameter Settings|CFP2000 Series Conditions is required to enable the bypass function When Pr.06-82 is set to 1, there is one of two conditions as below. (1) When operating at fire mode, there is error (as shown in the table below) and the fire alarm rings according to the time setting of Pr.06-83, then the bypass function will be enabled.
- Page 321 (Communication Time Out) Not-detectable Not-detectable Communication time out (cP10) Not-detectable Not-detectable Braking Transistor Fault (bf) Not-detectable Not-detectable Y-Delta connected Error (ydc) Not-detectable Not-detectable Decel. Energy Backup Error (dEb) Not-detectable Not-detectable Over Slip Error (oSL) Not-detectable Not-detectable Electromagnet switch error (ryF)
- Page 322 Chapter 12 Description of Parameter Settings|CFP2000 Series Normal Enable bypass Code Error name Fire Mode mode function Fire Mode output V(keeps on V(keeps on operating) operating) Safety Torque Off (STO) Not-detectable Not-detectable Channel 2 (STO2~SCM2) internal Not-detectable Not-detectable hardware error (STL2) Channel 1 and Channel 2 internal Not-detectable Not-detectable...
- Page 323 Chapter 12 Description of Parameter Settings|CFP2000 Series 07 Special Parameters This parameter can be set during operation. Software Brake Level Factory Setting: 740.0 Settings 700.0~900.0Vdc This parameter sets the DC-bus voltage at which the brake chopper is activated. Users can choose the suitable brake resistor to have the best deceleration.
- Page 324 Chapter 12 Description of Parameter Settings|CFP2000 Series Output frequen cy DC Br ak Time 07- 04 dur ing St opping 01-09 Start-point for Minimum DC brake out put time during fr equen cy stopping Run /Stop Time DC Br ake Time DC Brake at Start-up is used for loads that may move before the AC drive starts, such as fans and pumps.
- Page 325 Chapter 12 Description of Parameter Settings|CFP2000 Series operation. If it exceeds the Maximum Allowable Power Loss Time, the AC motor drive output is then turned off (coast stop). The selected operation after power loss in Pr.07-06 is only executed when the maximum allowable power loss time is ≤5 seconds and the AC motor drive displays “LU”.
- Page 326 Chapter 12 Description of Parameter Settings|CFP2000 Series Output frequency Input B.B. signal Stop output voltage Disable B.B. signal Output voltage Waiting time 08.07 output current A Speed Search 07-09 Current Limit for Speed Search Speed Synchronization speed detection Time FWD Run B.B.
- Page 327 Chapter 12 Description of Parameter Settings|CFP2000 Series Auto Restart Time after Fault Factory Setting: 0 Settings 0~10 After fault (oc, ov, occ) occurs, the AC motor drive can be reset/restarted automatically up to 10 times. Setting this parameter to 0 will disable the reset/restart operation after any fault has occurred. When enabled, the AC motor drive will restart with Pr07-10 setting after fault auto reset.
- Page 328 Chapter 12 Description of Parameter Settings|CFP2000 Series DCBUS voltage dEb activation level Level for soft start relay to be ON Soft start relay at power side dEb function activated Output frequency Pr07-13 Decel. time at momentary power loss (dEb function) 07-14 dEb return time Note (1)When Pr.07-14 is set to 0, the motor drive will stop and will not accelerate to the frequency before dEb even...
- Page 329 Chapter 12 Description of Parameter Settings|CFP2000 Series Dwell Frequency at Accel. Factory Setting: 0.00 Settings 0.00~599.00Hz Dwell Time at Decel. Factory Setting: 0.00 Settings 0.00~600.00 sec Dwell Frequency at Decel. Factory Setting: 0.00 Settings 0.00~599.00 Hz In the heavy load situation, Dwell can make stable output frequency temporarily, such as crane or elevator.
- Page 330 Chapter 12 Description of Parameter Settings|CFP2000 Series 2: Stop by 2 deceleration time 3: Stop by 3 deceleration time 4: Stop by 4 deceleration time 5: System Deceleration (According to original deceleration time) 6: Automatic Deceleration ( Pr01-46) When the multi-function input terminal is set to 10(EF) or 18(Emergency stop) and is activated, the drive will stop according to the setting in Pr.07-20.
- Page 331 Chapter 12 Description of Parameter Settings|CFP2000 Series constant speed operation, it will auto calculate the best voltage value by the load power for the load. This function is not suitable for the ever-changing load or near full-load during operation. When the output frequency is constant, i.e. constant operation, the output voltage will auto decrease by the load reduction.
- Page 332 Chapter 12 Description of Parameter Settings|CFP2000 Series Torque Compensation Gain (V/F and SVC control mode) Factory Setting: 0 Settings 0~10 When the motor load is large, a part of drive output voltage is absorbed by the resistor of stator winding and causes insufficient voltage at motor induction and result in over output current and insufficient output torque.
- Page 333 Chapter 12 Description of Parameter Settings|CFP2000 Series Slip Deviation Level Factory Setting: 0 Settings 0~100.0% 0: No detection Detection Time of Slip Deviation Factory Setting:1.0 Settings 0.0~10.0 sec Over Slip Treatment Factory Setting:0 Settings 0: Warn and keep operation 1: Warn and ramp to stop 2: Warn and coast to stop 3: No warning The Pr.07-29 to Pr.07-31 is to set allowable slip level/time and over slip treatment when the drive...
- Page 334 Chapter 12 Description of Parameter Settings|CFP2000 Series 08 High-function PID Parameters This parameter can be set during operation. Input Terminal for PID Feedback Factory Setting:0 Settings 0: No function 1: Negative PID feedback: on analogue input acc. To setting 5 of Pr. 03-00 to Pr.03-02.
- Page 335 Chapter 12 Description of Parameter Settings|CFP2000 Series Integral time(I): the controller output is proportional to the integral of the controller input. To eliminate the steady-state error, an “integral part” needs to be added to the controller. The integral time decides the relation between integral part and error. The integral part will be increased by time even if the error is small.
- Page 336 Chapter 12 Description of Parameter Settings|CFP2000 Series Proportional Gain (P) Factory Setting:1.0 Settings 0.0~100.0% When the setting is 1.0, it means Kp gain is 100%; setting is 0.5, Kp gain means 50%. It is used to eliminate the system error. It is usually used to decrease the error and get the faster response speed.
- Page 337 Chapter 12 Description of Parameter Settings|CFP2000 Series Settings 0.0~100.0% This parameter defines an upper bound or limit for the integral gain (I) and therefore limits the Master Frequency. The formula is: Integral upper bound = Maximum Output Frequency (Pr.01-00) x (Pr.08-04 %). Too large integral value will make the slow response due to sudden load change.
- Page 338 Chapter 12 Description of Parameter Settings|CFP2000 Series well. The control objects include occasions with integral component loads, which are controlled by the P action only, and sometimes, if the integral component is functioning, the whole system will be vibrating. On such occasions, in order to make the P action’s vibration subsiding and the system stabilizing, the PD control could be utilized.
- Page 339 Chapter 12 Description of Parameter Settings|CFP2000 Series Feedback Signal Detection Time Factory Setting: 0.0 Settings 0.0~3600.0 sec Pr.08-08 is valid only for ACI 4-20mA. This parameter sets the detection time of abnormal PID feedback. If detection time is set to 0.0, detection function is disabled.
- Page 340 Chapter 12 Description of Parameter Settings|CFP2000 Series PID Deviation Time Factory Setting: 5.0 Settings 0.1~300.0 sec Reserved PID Compensation Selection Factory Setting: 0 Settings 0: Parameter setting (Pr.08-17) 1: Analog input Pr.08-16=0: PID compensation value is given via Pr08-17 setting. Pr.08-16=1: The PID compensation value is given via analog input(Pr.03-00~03-02=13) and display at Pr.08-17(at this moment, Pr08-17 become read only).
- Page 341 Chapter 12 Description of Parameter Settings|CFP2000 Series Wake-up delay time Factory Setting: 0.00 Settings 0.00~600.00 sec. Refer to Pr.08-18 for more information. PID Control Bit Factory Setting: 0 Settings Bit0 =1, PID reverse running must follow the setting of Pr.00-23 Bit0 = 0, PID reverse running follows PID’s calculated value Bit0, when Pr.08-21 = 1, PID reverse running is enable.
- Page 342 Chapter 12 Description of Parameter Settings|CFP2000 Series frequency command output frequency Acceleration Time Limit Pr08-22 Wake-up Delay Time 3) PID Feedback Rate Percentage ( Use PID, Pr.08-00 ≠ 0 and Pr.08-18=1) When the PID feedback rate reaches the sleep level percentage, the VFD starts to count the sleep time.
- Page 343 Modbus RS- 485 When us ing communication devi ces, Pin 1~2,7,8: Reserv ed connects AC dr ive with P C by us ing Pin 3, 6: GND Delta IFD6530 or IFD6500. Pin 4: SG- Pin 5: SG+ RS-485 COM1 Communication Address...
- Page 344 Chapter 12 Description of Parameter Settings|CFP2000 Series 9: 8, O, 1 for ASCII 10: 8, E, 2 for ASCII 11: 8, O, 2 for ASCII 12: 8, N, 1 for RTU 13: 8, N, 2 for RTU 14: 8, E, 1 for RTU 15: 8, O, 1 for RTU 16: 8, E, 2 for RTU 17: 8, O, 2 for RTU...
- Page 345 Chapter 12 Description of Parameter Settings|CFP2000 Series (7 , O , 1) Start Stop parity 7-data bits 10-bits character frame 11-bit character frame (For RTU): (8 , N , 2) Start Stop Stop 8-data bits 11-bits character frame (8 , E , 1) Start Even Stop...
- Page 346 Chapter 12 Description of Parameter Settings|CFP2000 Series Communication Data Frame: RTU mode START A silent interval of more than 10 ms Address Communication address: 8-bit address Function Command code: 8-bit command Contents of data: DATA (n-1) n×8-bit data, n<=16 ……. DATA 0 CRC CHK Low CRC check sum:...
- Page 347 Chapter 12 Description of Parameter Settings|CFP2000 Series RTU mode: Command Message: Response Message Address Address Function Function Number of register Starting data register (count by byte) Number of register Content of register address 2102H (count by world) CRC CHK Low Content of register address 2103H CRC CHK High...
- Page 348 Chapter 12 Description of Parameter Settings|CFP2000 Series ASCII Mode Command Message: Response Message ‘:’ ‘:’ ADR 1 ‘0’ ADR 1 ‘0’ ADR 0 ‘1’ ADR 0 ‘1’ CMD 1 ‘1’ CMD 1 ‘1’ CMD 0 ‘0’ CMD 0 ‘0’ ‘0’ ‘0’...
- Page 349 Chapter 12 Description of Parameter Settings|CFP2000 Series RTU mode: CRC (Cyclical Redundancy Check) is calculated by the following steps: Step 1: Load a 16-bit register (called CRC register) with FFFFH. Step 2: Exclusive OR the first 8-bit byte of the command message with the low order byte of the 16-bit CRC register, putting the result in the CRC register.
- Page 350 Chapter 12 Description of Parameter Settings|CFP2000 Series return reg_crc; // return register CRC 4. Address list Content Register Function AC drive parameters GGnnH GG means parameter group, nn means parameter number, for example, the address of Pr 4-01 is 0401H. Command write only 2000H 00B:No function...
- Page 351 Chapter 12 Description of Parameter Settings|CFP2000 Series Content Register Function Status monitor read High byte: Warn Code 2100H only Low Byte: Error Code 2101H Bit1~0 AC Drive Operation Status 00B: Drive stops 01B: Drive decelerating 10B: Drive standby 11B: Drive operating Bit2 1:JOG Command Bit4~3...
- Page 352 Chapter 12 Description of Parameter Settings|CFP2000 Series Content Register Function 2206H Display actual motor speed kW of U, V, W(XXXXXkW) Display motor speed in rpm estimated by the drive or encoder 2207H feedback(XXXXXrpm) Display positive/negative output torque in %, estimated by the 2208H drive (t0.0: positive torque, -0.0: negative torque)(XXX.X%)...
- Page 353 Chapter 12 Description of Parameter Settings|CFP2000 Series Content Register Function 222AH Reserved 222DH 222EH PID reference(XXX.XX%) 222FH PID offset(XXX.XX%) 2230H PID output frequency(XXX.XXHz) 2231H Hardware ID 5. Exception response: The AC motor drive is expected to return a normal response after receiving command messages from the master device.
- Page 354 Chapter 12 Description of Parameter Settings|CFP2000 Series RS-485 BUS Response Message PC or PLC command of the AC Drive Handling time Response Delay Time of the AC drive Pr.09-09 Main Frequency of the Communication Factory Setting: 60.00 Settings 0.00~599.00Hz When Pr.00-20 is set to 1 (RS485 communication). The AC motor drive will save the last frequency command into Pr.09-10 when abnormal turn-off or momentary power loss.
- Page 355 Chapter 12 Description of Parameter Settings|CFP2000 Series 1: Decoding Method 2 (60xx) Decoding Method 1 Decoding Method 2 Source of Digital Keypad Digital keypad controls the drive action regardless decoding method 1 or 2. Operation External Terminal External terminal controls the drive action regardless decoding method 1 or 2. Control RS-485 Refer to address: 2000h~20FFh...
- Page 356 CANopen Speed Factory Setting: 0 Settings 0: 1M bps 1: 500K bps 2: 250K bps 3: 125K bps 4: 100K bps (Delta only) 5: 50K bps Reserved CANopen Warning Record Factory Setting: 0 Settings bit 0: CANopen Guarding Time out...
- Page 357 Chapter 12 Description of Parameter Settings|CFP2000 Series 5: Stop State CANopen Control Status Factory Setting: Read Only Settings 0: Not ready for use state 1: Inhibit start state 2: Ready to switch on state 3: Switched on state 4: Enable operation state 7: Quick stop active state 13: Err reaction activation state 14: Error state...
- Page 358 Chapter 12 Description of Parameter Settings|CFP2000 Series Reserved BACnet Max Address Factory Setting: 127 Settings 0~127 BACnet Password Factory Setting: 0 Settings 0~65535 Reserved Identifications for Communication Card Factory Setting: 0 Settings 0: No communication card 1: DeviceNet Slave 2: Profibus-DP Slave 3: CANopen Slave/Master 4: Modbus-TCP Slave 5: EtherNet/IP Slave...
- Page 359 Setting of DeviceNet Speed (according to Pr.09-72) (for DeviceNet and PROFIBUS) Factory Setting: 2 Settings Standard DeviceNet: 0: 125Kbps 1: 250Kbps 2: 500Kbps Non standard DeviceNet: (Delta only) 0: 10Kbps 1: 20Kbps 2: 50Kbps 3: 100Kbps 4: 125Kbps 5: 250Kbps...
- Page 360 Chapter 12 Description of Parameter Settings|CFP2000 Series Address Mask 2 of the Communication Card (for MODBUS TCP) Address Mask 3 of the Communication Card (for MODBUS TCP) Address Mask 4 of the Communication Card (for MODBUS TCP) Factory Setting: 0 Settings 0~65535 Getway Address 1 of the Communication Card (for MODBUS TCP)
- Page 361 Chapter 12 Description of Parameter Settings|CFP2000 Series 10 Speed Feedback Control Parameters This parameter can be set during operation. In this parameter group, ASR is the abbreviation for Adjust Speed Regulator and PG is the abbreviation for Pulse Generator. Reserved I/F Mode, current command Factory Setting: 40 Settings...
- Page 362 Chapter 12 Description of Parameter Settings|CFP2000 Series If the switch point is too high, the active area of I/F will be too wide, which will generate larger current and cannot save energy. (The reason is that if the current of Pr.10-31 sets too high, and the high switch point will make the drive keeps outputting with the setting value of Pr.10-31).
- Page 363 Chapter 12 Description of Parameter Settings|CFP2000 Series doesn’t need to be adjusted. But if a motor’s rated frequency (i.e. 400 Hz) is too close to the frequency setting of this parameter (i.e. factory setting 500 Hz), the accuracy of angles detected will be affected.
- Page 364 Chapter 12 Description of Parameter Settings|CFP2000 Series 11 Advanced Parameters Group 11 Advanced Parameters are reserved. 12.1-11-1...
- Page 365 Chapter 12 Description of Parameter Settings|CFP2000 Series 12 Pump Parameters This parameter can be set during operation. Circulative Control Factory Setting: 0 Settings 0: No operation 1: Fixed Time Circulation (by time) 2: Fixed Quantity 3: Fixed quantity control 4: Fixed Time Circulation + Fixed Quantity Circulation 5: Fixed Time Circulation + Fixed Quantity Control In this mode, CFP2000 can control up to 8 motors at a time.
- Page 366 Chapter 12 Description of Parameter Settings|CFP2000 Series Wiring: Fixed Time Circulation (by time) Control can control up to 8 motors. The diagram 12-2 is an example of controlling 4 motors at the same time. Diagram 12-2: Wiring 12.1-12-2...
- Page 367 Chapter 12 Description of Parameter Settings|CFP2000 Series Number of Motors to be connected Factory Setting: 1 Settings 1 to 8 Number of Motors: Maximum 8 motors. After setting number of motor to be connected at the same time, multi-function output terminals will follow automatically the setting as shown in the table below.
- Page 368 Chapter 12 Description of Parameter Settings|CFP2000 Series Pr12-06 and delay time of Pr12-05, then CFP2000 will delay the time setting of Pr12-03. Then CFP2000 will switch the motor to use mains electricity and delay the time setting of Pr12-03 to run next motor.
- Page 369 Chapter 12 Description of Parameter Settings|CFP2000 Series However if decreasing demands when flow quantity and pressure are too big, CFP2000 will stop the current operating motors and wait for the delay time setting of Pr12-04. Then keep on doing this until the last motor stop using mains electricity. See sequential diagram 12-5 and 12-6 below.
- Page 370 Chapter 12 Description of Parameter Settings|CFP2000 Series Parameter Setting Parameter Description setting P12-00=2 Choose Fixed quantity circulation with PID P12-01=X Number of Motors: Maximum 4 motors. After setting number of motor to be connected at the same time, multi-function output terminals will follow automatically the setting as shown in the table below.
- Page 371 Chapter 12 Description of Parameter Settings|CFP2000 Series Fixed quantity circulation with PID can control up to 4 motors. The Diagram 12-7 below is an example of controlling 4 motors. Diagram 12-7 Frequency Point when switch from I/F Sensorless Observation mode to V/F mode Factory Setting: 6000 Settings 0.0 to 600.00 Hz When the drive’s output frequency reaches the setting value of Pr12-06, the system will start...
- Page 372 Chapter 12 Description of Parameter Settings|CFP2000 Series I/F mode, low pass-filter time Factory Setting: 0 Settings 0: Turn off all output 1: Motors powered by mains electricity continues to operate Initial Angle Detection Time Factory Setting: 0 Settings 0.00 to 600.00 Hz When the output frequency is smaller than the setting value of Pr12-08 and remains at the time setting of Pr12-04, motors will be shut down one by one.
- Page 373 Chapter 12 Description of Parameter Settings|CFP2000 Series P12-05 P12-05 P12-05 freq P ump #1 o f f P12-06 Pump #0 by Drive Pump #1 off Pump #1 on AC Mains Pump #2 off Pump #2 on AC Mai ns Pump #3 off Pump #3 on AC Mains time Diagram 12-9: Sequence of switching motors at fixed quantity control with PID –...
- Page 374 Chapter 12 Description of Parameter Settings|CFP2000 Series P12-05 P12-05 P12-05 freq Pump #1 o f f Min Freq Pump #0 by Drive Pump #1 on AC Mains Pump #1 off Pump #2 on AC Mains Pump #2 off Pump #3 on AC Mains Pump #3 off time Diagram 12-10: Sequence of switching motors at fixed quantity control with PID –...
- Page 375 Chapter 12 Description of Parameter Settings|CFP2000 Series P02-01~P02-06= 61 62 63 64 65 66 67 68 Disable Motor’s Output ALL 1 When a motor’s output is disabled, this motor will park freely Wiring: Fixed Quantity Control can control up to 8 motors. The diagram 12-12 is an example of controlling 4 motors at the same time.
- Page 376 Chapter 12 Description of Parameter Settings|CFP2000 Series Fixed Time circulation and Fixed quantity circulation with PID This mode combines Fixed Time circulation and fixed quantity circulation with PID. It is to prevent motors to become rusty if they are not in use for a long period of time. If some motors are not activated, set the fixed time circulation to run motors one by one to make sure each of them has the chance to run.
- Page 377 Chapter 12 Description of Parameter Settings|CFP2000 Series Time circulation and Fixed amount control with PID This mode combines Fixed Time circulation and fixed quantity control with PID. It is to prevent motors to become rusty if they are not in use for a long period of time. If some motors are not activated, set the fixed time circulation to run motors one by one to make sure each of them has the chance to run.
- Page 378 Chapter 12 Description of Parameter Settings|CFP2000 Series 13 Application Parameters by Industry This parameter can be set during operation. Application selection Factory Setting: 0 0: Disabled Settings 1: User Parameter 2: Compressor IM 3: Fan 4: Pump Settings: 2: Compressor IM Explanation Settings 00-11...
- Page 379 Chapter 12 Description of Parameter Settings|CFP2000 Series 3: Fan Explanation Settings 00-11 0(VF) Control of Speed Mode Load Selection 00-16 1: Normal load 00-17 Carrier Frequency Source of Master Frequency 00-20 2: External analog input (Pr.03-00) Command(AUTO) Source of the Operation 00-21 1: External terminals.
- Page 380 Chapter 12 Description of Parameter Settings|CFP2000 Series 4: Pump Explanation Settings 00-11 0(VF) Control of Speed Mode 00-16 Load Selection 1: Normal load 00-20 Carrier Frequency 2: External analog input (Pr.03-00) Source of Master Frequency 00-21 1: External terminals. Keypad STOP disabled. Command(AUTO)...
- Page 381 Chapter 12 Description of Parameter Settings|CFP2000 Series 12-2 Adjustment & Application 12-2-1 Standard PM Motor Adjustment Procedure Pr00-11=2 SVC (Pr05-33=1 or 2) Flow chart of adjustment when starting up WITHOUT load Flow chart of adjustment when starting up WITH load 12.2-00-1...
- Page 382 Chapter 12 Description of Parameter Settings|CFP2000 Series A test of perf ormance on low f reque ncy & with load Incr ea se P r1 0 3 1 De cre ase Pr 10 31 Pe rfo rma nce o n lo w f re qu en cy &...
- Page 383 Chapter 12 Description of Parameter Settings|CFP2000 Series PMSVC control diagram Pr07- 24 Filt er t ime of t orque command Pr07-26 Torque compensat ion gain Pr10- 31 I /F m ode curr ent c ommand (I d) Torque compensation control Pr05-40 PM m ot or Ld Pr05-41 PM m ot or Lq Pr05-43 PM m ot or Ke...
- Page 384 Chapter 12 Description of Parameter Settings|CFP2000 Series Set up speed control mode: Pr00-10=0, Pr00-11=2 SVC. It is suggested that cutting off the power after finishing tuning, and then re-power on. The ration of PMSVC control mode is 1:20. When PMSVC control mode is under 1/20 rated speed, load bearing capacity=100% motor rated torque.
- Page 385 Chapter 12 Description of Parameter Settings|CFP2000 Series If the switch point is too high, the active area of I/F will too wide, and then it will generate larger current to make it cannot save energy. (The reason is that if the current of Pr10-31 sets too high, and the high switch point will make the drive keeps outputting with the setting value of Pr10-31) Voltage pulse width...
- Page 386 Chapter 12 Description of Parameter Settings|CFP2000 Series The parameter is magnitude command of high frequency injection signal when IPM HFI sensorless control mode. Increase the parameter can get the more accurate estimated value of angle. But the noise of electromagnetic might be louder if the setting value is too high. To get the parameter when motor’s parameter is “Auto”.
-
Page 387: Chapter 13 Warning Codes
Chapter 13 Warning Codes|CFP2000 Series Chapter 13 Warning Codes ID No. Display on LCM Keypad Descriptions Warning Modbus function code error CE01 Comm. Error 1 Warning Address of Modbus data is error CE02 Comm. Error 2 Warning Modbus data error CE03 Comm. - Page 388 Chapter 13 Warning Codes|CFP2000 Series ID No. Display on LCM Keypad Descriptions Warning Capacity over-heating warning Over heat 2 warn Warning PID feedback error PID FBK Error ACI signal error Warning When Pr03-19 is set to 1 and 2. Analog loss Warning Low current Under Current...
- Page 389 Chapter 13 Warning Codes|CFP2000 Series ID No. Display on LCM Keypad Descriptions Warning Keypad COPY error 3 Keypad copy between different power range drive Copy Model Err 3 Warning CAN guarding time-out 1 CGdn Guarding T-out Warning CAN heartbeat time-out 2 CHbn Heartbeat T-out Warning...
- Page 390 Chapter 13 Warning Codes|CFP2000 Series ID No. Display on LCM Keypad Descriptions Warning Save error of PLC download PLSv Save mem defect Warning Data error during PLC operation PLdA Data defect Warning Function code of PLC download error PLFn Function defect Warning PLC register overflow PLor...
- Page 391 Chapter 13 Warning Codes|CFP2000 Series ID No. Display on LCM Keypad Descriptions Warning CAN Master node error PCnL CAN/M Node Lack Warning CAN/M cycle time-out PCCt Warning CAN/M SDOover PCSF CAN/M SDO over Warning CAN/M SDO time-out PCSd CAN/M Sdo Tout Warning CAN/M station address error PCAd...
- Page 392 Chapter 13 Warning Codes|CFP2000 Series ID No. Display on LCM Keypad Descriptions Warning Serious internal error ECiF ExCom Inner err Warning IO connection break off ECio ExCom IONet brk Warning Profibus parameter data error ECPP ExCom Pr data Warning Profibus configuration data error ECPi ExCom Conf data Warning...
- Page 393 Chapter 13 Warning Codes|CFP2000 Series ID No. Display on LCM Keypad Descriptions Warning Communication card busy Ecby ExCom Busy Wa r ni n g Copy PLC password error CP LP Cop y P LC P ass W d Wa r ni n g Copy PLC Read mode error CP L0 Cop y P LC M o de Rd...
- Page 394 Chapter 13 Warning Codes|CFP2000 Series [The page intentionally left blank] 13-8...
-
Page 395: Chapter 14 Fault Codes And Descriptions
Chapter 14 Fault Codes and Descriptions |CFP2000 Series Chapter 14 Fault Codes and Descriptions * Refer to setting of Pr06-17~Pr06~22. Fault Name Fault Descriptions Corrective Actions 1. Short-circuit at motor output: Check for possible Over-current during poor insulation at the output. acceleration 2. - Page 396 Chapter 14 Fault Codes and Descriptions |CFP2000 Series Fault Name Fault Descriptions Corrective Actions Fault Hardware failure in Return to the factory current detection Oc at stop 1. Check if the input voltage falls within the rated AC motor drive input voltage range. DC BUS over-voltage Fault 2.
- Page 397 Chapter 14 Fault Codes and Descriptions |CFP2000 Series Fault Name Fault Descriptions Corrective Actions Check Power Source Input if all 3 input phases are Fault connected without loose contacts. Phase Loss For models 40hp and above, please check if the fuse for the AC input circuit is blown.
- Page 398 Chapter 14 Fault Codes and Descriptions |CFP2000 Series Fault Name Fault Descriptions Corrective Actions Motor overheating The AC motor drive Make sure that the motor is not obstructed. detecting internal Fault Ensure that the ambient temperature falls within temperature exceeds the the specified temperature range.
- Page 399 Chapter 14 Fault Codes and Descriptions |CFP2000 Series Fault Name Fault Descriptions Corrective Actions Fault Reboots the power. If fault code is still displayed on the OC hardware error keypad please return to the factory Oc HW error Fault Reboots the power. If fault code is still displayed on the OV hardware error keypad please return to the factory Ov HW error...
- Page 400 Braking fault Fault Check the wiring of the Y-connection/∆-connection Y-connection/∆-connectio n switch error Check the parameters settings Y-delta connect When Pr.07-13 is not set to 0 and momentary Fault Set Pr.07-13 to 0 power off or power cut, it Check if input power is stable will display dEb during Dec.
- Page 401 Chapter 14 Fault Codes and Descriptions |CFP2000 Series Fault Name Fault Descriptions Corrective Actions Electric valve switch error when executing Soft Start. Fault (This warning is for frame E and higher frame of AC drives) Do not disconnect RST when drive is still operating. MC Fault F au l t STO1~SCM1 internal hardware detect error...
- Page 402 Chapter 14 Fault Codes and Descriptions |CFP2000 Series Fault Name Fault Descriptions Corrective Actions Fault Output phase loss (Phase U) OPHL U phase lacked Fault Output phase loss (Phase V) OPHL V phase lacked Fault Output phase loss (Phase W) OPHL W phase lacked OL3 Fault Protection...
- Page 403 Chapter 14 Fault Codes and Descriptions |CFP2000 Series Fault Name Fault Descriptions Corrective Actions Fault CANopen station address error CAdE Can bus Add. Err Fault CANopen memory error CFrE Can bus off Fault Internal communication time-out ictE InrCom Time Out 14-9...
- Page 404 Chapter 14 Fault Codes and Descriptions |CFP2000 Series [The page intentionally left blank] 14-10...
Need help?
Do you have a question about the VFD007FP4EA-41 and is the answer not in the manual?
Questions and answers