Delta VFD-VL - Manuals - manualsarea.com

Page 4 - Preface; PLEASE READ PRIOR TO INSTALLATION FOR SAFETY.

Preface Thank you for choosing DELTA’s high-performance VFD-VL Series. The VFD-VL Series is manufactured with high-quality components and materials and incorporates the latest microprocessor technology available. This manual is to be used for the installation, parameter setting, troubleshooting, and...

Page 6 - Table of Contents

Table of Contents Preface ............................................................................................................. i Table of Contents .......................................................................................... iii Chapter 1 Introduction .............................

Page 9 - B.7.4 Recommended Position the Rubber Magnet of the Digital Keypad

B.4.2 AC Output Reactor Recommended Value ................................B-11 B.4.3 Applications for AC Reactor ......................................................B-12 B.5 Zero Phase Reactor (RF220X00A) ................................................. B-15 B.6 DC Choke Recommended Values..........

Page 10 - Chapter 1 Introduction; Store within an ambient temperature range of -20

Revision Nov. 2008, VLE1, SW V1.03 1-1 Chapter 1 Introduction 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. Storag...

Page 11 - Receiving and Inspection; Inspect the unit to assure it was not damaged during shipment.; AC Dri ve Model; M OD EL; Sof twar e versi on

Chapter 1 Introduction | 1-2 Revision Nov. 2008, VLE1, SW V1.03 1.1 Receiving and Inspection This VFD-VL AC motor drive has gone through rigorous quality control tests at the factory before shipment. After receiving the AC motor drive, please check for the following: Check to make sure that the pa...

Page 12 - P r od u ct io n n u m be r; P r od u ct io n w e e k; M od e l; any problems, please contact your distributor.

Chapter 1 Introduction | Revision Nov. 2008, VLE1, SW V1.03 1-3 1.1.3 Series Number Explanation 2 6 7 T 110 V L2 3A P r od u ct io n n u m be r P r od u ct io n y e a r 200 7P r od u ct io n f a c t or y P r od u ct io n w e e k ( T: Ta oy u a n, W: Wu j i an ) M od e l 2 3 0V 3 - ph a s e 1 5 H P( ...

Page 13 - Frame

Chapter 1 Introduction | 1-4 Revision Nov. 2008, VLE1, SW V1.03 40-100HP/30-75kW(Frame E) Frame Power range Models C 7.5-15HP (5.5-11kW) VFD055VL23A/43A, VFD075VL23A/43A, VFD110VL23A/43A D 20-30HP (15-22kW) VFD150VL23A/43A, VFD185VL23A/43A, VFD220VL23A/43A E (E1) 40-60hp (30-45kW) VFD300VL43A, VFD37...

Page 14 - Communication Port

Chapter 1 Introduction | Revision Nov. 2008, VLE1, SW V1.03 1-5 1.1.5 Drive Features Communication Port Internal structure Removable fan

Page 15 - Preparation for Installation and Wiring; Operation; Minimum Mounting Clearances; HP

Chapter 1 Introduction | 1-6 Revision Nov. 2008, VLE1, SW V1.03 1.2 Preparation for Installation and Wiring 1.2.1 Ambient Conditions Install the AC motor drive in an environment with the following conditions: Air Temperature: -10 ~ +45°C (14 ~ 113°F) Relative Humidity: <90%, no condensation allow...

Page 16 - damage to the AC motor drive.

Chapter 1 Introduction | Revision Nov. 2008, VLE1, SW V1.03 1-7 C AUT IO N ! 1. Operating, storing or transporting the AC motor drive outside these conditions may cause damage to the AC motor drive. 2. Failure to observe these precautions may void the warranty! 3. Mount the AC motor drive vertically...

Page 17 - please refer to the following picture.; Step 1

Chapter 1 Introduction | 1-8 Revision Nov. 2008, VLE1, SW V1.03 40-100HP/30-75kW (frame E) After removing the screws, please push the front cover to open it. For the open cover direction, please refer to the following picture. 1.2.3 Lifting Please carry only fully assembled AC motor drives as shown ...

Page 18 - Step 3; f ixe d p la t e 1

Chapter 1 Introduction | Revision Nov. 2008, VLE1, SW V1.03 1-9 Step 3 Step 4 1.2.4 Flange Mounting Step 1: Please take out the 16 screws (8 screws for each top and bottom side of the drive) and remove the fixed plate 1 and fixed plate 2) as shown in the following figures. 3 4 1 2 7 8 5 6 f ixe d p ...

Page 19 - following figures) with the following torque.; f ixe d p la t e 1

Chapter 1 Introduction | 1-10 Revision Nov. 2008, VLE1, SW V1.03 Step 2: place the 8 screws back in to secure the fixed plate 1 and fixed plate 2 (as shown in the following figures) with the following torque. Frame C: 14-17kgf-cm [12.2-14.8in-lbf] Frame D: 20-25kgf-cm [17.4-21.7in-lbf] Frame E: 20-2...

Page 22 - Frame C; N OT E

Chapter 1 Introduction | Revision Nov. 2008, VLE1, SW V1.03 1-13 1.3 Dimensions Frame C C h e c k to b e s u r e th a t t h e vo l ta g e o f th e m a i n A C p o w e r s u p p l y s a ti s fi e s t he ra t e d v o l ta g e o f th e I n ve r te r. D o n o t c o n n e ct A C p o we r t o o u tp u t t...

Page 23 - Frame D

Chapter 1 Introduction | 1-14 Revision Nov. 2008, VLE1, SW V1.03 Frame D C h e c k to b e s u r e th a t t h e vo l ta g e o f th e m a i n A C p o w e r s u p p l y s a ti s fi e s t he ra t e d v o l ta g e o f th e I n ve r te r. D o n o t c o n n e ct A C p o we r t o o u tp u t te r mi n a l s ...

Page 24 - Frame E

Chapter 1 Introduction | Revision Nov. 2008, VLE1, SW V1.03 1-15 Frame E W1 W D H1 H2 S2 H D1 S1 D2 S3 Unit: mm [inch] Frame W W1 H H1 H2 D D1 D2 S1 S2 S3 E1 370.0 [14.57] 335.0 [13.19] - 589.0 [23.19] 560.0 [22.05] 260.0 [10.24] 132.5 [5.22] 18.0 [0.71] 13.0 [0.51] 13.0 [0.51] 18.0 [0.71] E2 370.0 ...

Page 25 - This page intentionally left blank

Chapter 1 Introduction | 1-16 Revision Nov. 2008, VLE1, SW V1.03 This page intentionally left blank

Page 26 - Chapter 2 Installation and Wiring; indicated on the nameplate.

Revision Nov. 2008, VLE1, SW V1.03 2-1 Chapter 2 Installation and Wiring After removing the front cover (see chapter 1.2.2 for details), check if the power and control terminals are clear. Be sure to observe the following precautions when wiring. C AUT IO N! 1. Make sure that power is only applied t...

Page 28 - u se d w i th ex t e rn al p ow e r; Fi gure 3 Appl y to 1- phase UPS power s upply s yste m

Chapter 2 Installation and Wiring | Revision Nov. 2008, VLE1, SW V1.03 2-3 Figure 2 Wiring/Terminals setting for SINK(NPN) mode and SOURCE(PNP) mode 3 1 S i n k (N P N ) m o d e S o u r c e ( P NP ) mo d e 2 4 S i n k (N P N ) m o d e S o u r c e ( P NP ) mo d e u se d wi th i nt e rn al p o we r (+...

Page 29 - comes in contact with high voltage.

Chapter 2 Installation and Wiring | 2-4 Revision Nov. 2008, VLE1, SW V1.03 E P S / + R / L1 S / L 2 T /L 3 E P S / - M I 1 ~8 C OM 1 2 3 1 2 3 48V dc ( 230V Se r ie s) 96V dc ( 460V Se r ie s) 3~ B e f o re in pu t t in g e m e r ge n cy p o w e r, m a g n e ti c c on t a ct o r a nd a re ON a n d m...

Page 30 - switch over any of the two motor leads.; Ensure there are no ground; Ex c el le n t; G ood; gr ouni ng; Not a llo w e d

Chapter 2 Installation and Wiring | Revision Nov. 2008, VLE1, SW V1.03 2-5 5. The AC motor drive, motor and wiring may cause interference. To prevent the equipment damage, please take care of the erroneous actions of the surrounding sensors and the equipment. 6. When the AC drive output terminals U/...

Page 31 - Items Explanations

Chapter 2 Installation and Wiring | 2-6 Revision Nov. 2008, VLE1, SW V1.03 2.2 External Wiring Mot or Ou tpu t AC Li ne Rea ct or Pow er Supp l y Mag net ic c ont act or I nput AC Li ne Rea ct or EMI Fil te r R /L1 S/L 2 T/ L3 U /T1 V/T2 W /T3 +/B1 B2 Zer o-ph ase R eac tor Zer o-ph ase R eac tor FU...

Page 32 - M o t o r

Chapter 2 Installation and Wiring | Revision Nov. 2008, VLE1, SW V1.03 2-7 2.3 Main Circuit 2.3.1 Main Circuit Connection N o n -f u se b r e ak e r ( NF B ) B r ak e r es ist o r(O p ti on a l) M o t o r R ( L1 )S ( L2 )T( L 3) R ST U (T 1)V ( T 2 ) W ( T 3) IM3 ~ M C E E +1 +2 / B 1 B 2 + - E P S ...

Page 33 - resistor; Jumper

Chapter 2 Installation and Wiring | 2-8 Revision Nov. 2008, VLE1, SW V1.03 Mains power terminals (R/L1, S/L2, T/L3) Connect these terminals (R/L1, S/L2, T/L3) via a non-fuse breaker or earth leakage breaker to 3-phase AC power (some models to 1-phase AC power) for circuit protection. It is unneces...

Page 35 - Models; Stranded; Control Terminals; S in k / NP N M od e; S o ur c e M o de; T he P osi tio n o f Ex t er nal Te rmi nals

Chapter 2 Installation and Wiring | 2-10 Revision Nov. 2008, VLE1, SW V1.03 Frame E Main circuit terminals R/L1, S/L2, T/L3, U/T1, V/T2, W/T3, , +1, +2, - Models Wire Torque Wire Type VFD300VL43A VFD370VL43A VFD450VL43A 57kgf-cm (49in-lbf) VFD300VL23A VFD370VL23A VFD550VL43A VFD750VL43A 4-2 AWG. (21...

Page 36 - Terminal

Chapter 2 Installation and Wiring | Revision Nov. 2008, VLE1, SW V1.03 2-11 Terminal symbols and functions Terminal Symbol Terminal Function Factory Settings (SINK) ON: Connect to DCM FWD Forward-Stop Command ON: RUN in FWD direction OFF: Stop acc. to Stop Method REV Reverse-Stop Command ON: RUN in ...

Page 38 - wind each wires 3 times or more around the core; T he P os i ti o n o f E x t er n a l Ter mi n als

Chapter 2 Installation and Wiring | Revision Nov. 2008, VLE1, SW V1.03 2-13 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 i...

Page 40 - Chapter 3 Operation and Start Up; Operation Method

Revision Nov. 2008, VLE1, SW V1.03 3-1 Chapter 3 Operation and Start Up Make sure that the wiring is correct. In particular, check that the output terminals U/T1, V/T2, W/T3 are NOT connected to power and that the drive is well grounded. Verify that no other equipment is connected to the AC moto...

Page 42 - Check following items:

Chapter 3 Operation and Start Up | Revision Nov. 2008, VLE1, SW V1.03 3-3 3.2 Trial Run The factory setting of operation source is from external terminals. 1. Please connect a switch for both external terminals FWD-COM and REV-COM. 2. Please connect a potentiometer among AUI1/AUI2, +10V, -10V and AC...

Page 44 - Basic parameters settings

Chapter 3 Operation and Start Up | Revision Nov. 2008, VLE1, SW V1.03 3-5 3.3.2 Explanations for the Auto-tuning Steps 3.3.2.1 Step 1 Basic parameters settings Make sure that Pr.00-00 (identity code of the AC motor drive) corresponds with the nameplate indicated on the AC motor drive. Make sure ...

Page 46 - Motor tuning; IM motor

Chapter 3 Operation and Start Up | Revision Nov. 2008, VLE1, SW V1.03 3-7 Settings of Pr.02- 13~02-22 19: Brake chopper output error 20: Warning output 21: Over voltage warning 22: Over-current stall prevention warning 23: Over-voltage stall prevention warning 24: Operation mode indication (Pr.00-15...

Page 47 - PM motor

Chapter 3 Operation and Start Up | 3-8 Revision Nov. 2008, VLE1, SW V1.03 Motor Auto-tuning: When the Source of the Operation Command is set to digital keypad (Pr.00-15=2, refer to step 1) and setting Pr.05-00=2 Pr.05-00 Motor Auto tuning 0: No function 1: Rolling test (Rs, Rr, Lm, Lx, no-load cur...

Page 53 - Function of the preload input

Chapter 3 Operation and Start Up | 3-14 Revision Nov. 2008, VLE1, SW V1.03 Pr.10-19 Zero Speed Gain (P) 0~655.00% NOTE: refer to the explanations in Pr.02-32 Pr.10-22 Operation Time of Zero Speed 0.000~65.535sec Pr.10-23 Filter Time of Zero Speed 0.000~65.535sec Pr.10-24 Time for Zero Speed Executio...

Page 54 - A n a l o g in p u t g a i n; Setting of drive stop

Chapter 3 Operation and Start Up | Revision Nov. 2008, VLE1, SW V1.03 3-15 Pr.07-19 Source of Torque Offset 0: Disable 1: Analog input (Pr.03-00) 2: Torque offset setting (Pr.07-20) 3: Control by external terminal (by Pr.07-21 to Pr.07-23) Pr.03-03 Analog Input Bias 1 (AUI1) -100.0~100.0% Pr.03-06 P...

Page 56 - Chapter 4 Parameters

Revision Nov. 2008, VLE1, SW V1.03 4-1 Chapter 4 Parameters The VFD-VL parameters are divided into 14 groups by property for easy setting. In most applications, the user can finish all parameter settings before start-up without the need for re-adjustment during operation. The 14 groups are as follow...

Page 57 - Summary of Parameter Settings; : The parameter can be set during operation.; Group 0 System Parameters

Chapter 4 Parameters | 4-2 Revision Nov. 2008, VLE1, SW V1.03 4.1 Summary of Parameter Settings : The parameter can be set during operation. Group 0 System Parameters Pr. Explanation Settings Factory Setting VF VF PG SVC FOC PG TQC PG FOC PM 00-00 Identity Code of the AC motor drive Read-only # ○ ○ ...

Page 59 - Group 1 Basic Parameters

Chapter 4 Parameters | 4-4 Revision Nov. 2008, VLE1, SW V1.03 Group 1 Basic Parameters Pr. Explanation Settings Factory Setting VF VF PG SVC FOC PG TQC PG FOC PM 01-00 Maximum Output Frequency 10.00~120.00Hz 60.00/ 50.00 ○ ○ ○ ○ ○ ○ 01-01 1st Output Frequency Setting 1 0.00~120.00Hz 60.00/ 50.00 ○ ○...

Page 60 - Group 2 Digital Input/Output Parameters

Chapter 4 Parameters | Revision Nov. 2008, VLE1, SW V1.03 4-5 Group 2 Digital Input/Output Parameters Pr. Explanation Settings Factory Setting VF VF PG SVC FOC PG TQC PG FOC PM 02-00 2-wire/3-wire Operation Control 0: FWD/STOP, REV/STOP 1: FWD/STOP, REV/STOP (Line Start Lockout) 2: RUN/STOP, REV/FWD...

Page 62 - Group 3 Analog Input/Output Parameters

Chapter 4 Parameters | Revision Nov. 2008, VLE1, SW V1.03 4-7 Group 3 Analog Input/Output Parameters Pr. Explanation Settings Factory Setting VF VF PG SVC FOC PG TQC PG FOC PM 03-00 Analog Input 1 (AUI1) 0: No function 1 ○ ○ ○ ○ ○ ○ 03-01 Analog Input 2 (ACI) 1: Frequency command (torque limit under...

Page 64 - Group 4 Multi-Step Speed Parameters

Chapter 4 Parameters | Revision Nov. 2008, VLE1, SW V1.03 4-9 Group 4 Multi-Step Speed Parameters Pr. Explanation Settings Factory Setting VF VF PG SVC FOC PG TQC PG FOC PM 04-00 Zero Step Speed Frequency 0.00~120.00Hz 0.00 ○ ○ ○ ○ ○ 04-01 1st Step Speed Frequency 0.00~120.00Hz 0.00 ○ ○ ○ ○ ○ 04-02 ...

Page 65 - Group 5 IM Motor Parameters

Chapter 4 Parameters | 4-10 Revision Nov. 2008, VLE1, SW V1.03 Group 5 IM Motor Parameters Pr. Explanation Settings Factory Setting VF VF PG SVC FOC PG TQC PG FOC PM 05-00 Motor Auto Tuning 0: No function 1: Rolling test (Rs, Rr, Lm, Lx, no-load current) 2: Static Test 0 ○ 05-01 Full-load Current of...

Page 66 - Group 6 Protection Parameters

Chapter 4 Parameters | Revision Nov. 2008, VLE1, SW V1.03 4-11 Group 6 Protection Parameters Pr. Explanation Settings Factory Setting VF VF PG SVC FOC PG TQC PG FOC PM 160.0~220.0Vdc 180.0 ○ ○ ○ ○ ○ ○ 06-00 Low Voltage Level 320.0~440.0Vdc 360.0 ○ ○ ○ ○ ○ ○ 06-01 Phase-loss Protection 0: W arn and k...

Page 68 - Group 7 Special Parameters

Chapter 4 Parameters | Revision Nov. 2008, VLE1, SW V1.03 4-13 Group 7 Special Parameters Pr. Explanation Settings Factory Setting VF VF PG SVC FOC PG TQC PG FOC PM 07-00 Brake Chopper Level 230V: 350.0~450.0Vdc 460V: 700.0~900.0Vdc 380.0760.0 ○ ○ ○ ○ ○ ○ 07-01 Brake ED Value Setting 0~100% 100 ○ ○ ...

Page 69 - Group 8 PM Motor Parameters

Chapter 4 Parameters | 4-14 Revision Nov. 2008, VLE1, SW V1.03 Group 8 PM Motor Parameters Pr. Explanation Settings Factory Setting VF VF PG SVC FOC PG TQC PG FOC PM 08-00 Motor Auto Tuning 0: No function 1: Only for the unloaded motor, auto measure the angle between magnetic field and PG origin (08...

Page 70 - Group 9 Communication Parameters

Chapter 4 Parameters | Revision Nov. 2008, VLE1, SW V1.03 4-15 Group 9 Communication Parameters Pr. Explanation Settings Factory Setting VF VF PG SVC FOC PG TQC PG FOC PM 09-00 Communication Address 1~254 1 ○ ○ ○ ○ ○ ○ 09-01 Transmission Speed 4.8~115.2Kbps 9.6 ○ ○ ○ ○ ○ ○ 09-02 Transmission Fault T...

Page 71 - Group 10 Speed Feedback Control Parameters

Chapter 4 Parameters | 4-16 Revision Nov. 2008, VLE1, SW V1.03 Group 10 Speed Feedback Control Parameters Pr. Explanation Settings Factory Setting VF VF PG SVC FOC PG TQC PG FOC PM 10-00 PG Signal Type 0: No function 1: ABZ 2: ABZ+Hall 3: SIN/COS+Sinusoidal 4: SIN/COS+Endat 5: SIN/COS 6: SIN/COS + H...

Page 72 - Group 11 Advanced Parameters

Chapter 4 Parameters | Revision Nov. 2008, VLE1, SW V1.03 4-17 Group 11 Advanced Parameters Pr. Explanation Settings Factory Setting VF VF PG SVC FOC PG TQC PG FOC PM 11-00 System Control Bit 0=0: no function Bit 0=1: ASR Auto tuning, PDFF enable Bit 7=0: no function Bit 7=1: When position control i...

Page 73 - Group 12 User-defined Parameters

Chapter 4 Parameters | 4-18 Revision Nov. 2008, VLE1, SW V1.03 Group 12 User-defined Parameters Pr. Explanation Settings Factory Setting VF VF PG SVC FOC PG TQC PG FOC PM 12-00 | 12-31 User-defined Parameters Pr.00-00 to Pr.11-18 - ○ ○ ○ ○ ○ ○

Page 74 - Group 13 View User-defined Parameters

Chapter 4 Parameters | Revision Nov. 2008, VLE1, SW V1.03 4-19 Group 13 View User-defined Parameters Pr. Explanation Settings Factory Setting VF VF PG SVC FOC PG TQC PG FOC PM 13-00 | 13-31 View User-defined Parameters Pr.00-00 to Pr.11-18 - ○ ○ ○ ○ ○ ○

Page 75 - Description of Parameter Settings

Chapter 4 Parameters | 4-20 Revision Nov. 2008, VLE1, SW V1.03 4.2 Description of Parameter Settings Group 0 User Parameters : This parameter can be set during operation. 00-00 Identity Code of the AC Motor Drive Control mode VF VFPG SVC FOCPG TQCPG FOCPM Factory setting: ## Settings Read Only 00-01...

Page 76 - u t

Chapter 4 Parameters | Revision Nov. 2008, VLE1, SW V1.03 4-21 00-02 Parameter Reset Control mode VF VFPG SVC FOCPG TQCPG FOCPM Factory setting: 0 Settings 0 No Function 1 Read Only 8 Keypad Lock 9 All parameters are reset to factory settings (50Hz, 220V/380V) 10 All parameters are reset to factory ...

Page 78 - F F S

Chapter 4 Parameters | Revision Nov. 2008, VLE1, SW V1.03 4-23 00-04 Content of Multi-Function Display 20 The corresponding CPU pin status of digital output (o.) D U: P O E E i n a St t E u s E S E E EE F EE F F F E E E E 21 | 23 Reserved 24 Output AC voltage when malfunction (8) E U: o r r V r E t ...

Page 79 - Us

Chapter 4 Parameters | 4-24 Revision Nov. 2008, VLE1, SW V1.03 RA: Pr.02-11 is set to 9 (Drive ready). After applying the power to the AC motor drive, if there is no other abnormal status, the contact will be ON. At the meanwhile, if Pr.00-04 is set to 15 or 18, it will display 0001 with LED U is ON...

Page 81 - P a ss wo r d S e t t in g; EN D; Control Method

Chapter 4 Parameters | 4-26 Revision Nov. 2008, VLE1, SW V1.03 P a ss wo r d S e t t in g D e co d in g F lo w C h a rt F or g e tt in g P a ssw ro d 00- 08 Di splays 01 when ent er ing cor r ectpassw or d int o P r.00- 08. Di splays 00 when ent er ing cor r ectpassw or d int o P r.00- 07. 00- 08 A ...

Page 88 - JOG Frequency

Chapter 4 Parameters | Revision Nov. 2008, VLE1, SW V1.03 4-33 0 1- 0 0 0 1- 1 3, 15 ,1 7, 19 0 1- 1 2, 14 ,1 6, 18 F r e qu e n cy Ti me M ax . O u tp u t F r e qu e n cyF r e qu e n cy S e t t in g a cc e l. t i me d ec e l . t i me A c ce l . /D e ce l . Ti me 01-22 JOG Frequency Unit: 0.01 Contr...

Page 89 - st / 4t h A c c el e ra ti o n /D e c el e ra ti o n Sw it c h in g

Chapter 4 Parameters | 4-34 Revision Nov. 2008, VLE1, SW V1.03 This parameter selects the frequency point for transition from acceleration/deceleration time 1 to acceleration/deceleration time 4. The transition from acceleration/deceleration time 1 to acceleration/deceleration time 4, may also be en...

Page 90 - F re q u e nc y

Chapter 4 Parameters | Revision Nov. 2008, VLE1, SW V1.03 4-35 01- 24 01- 25 01- 26 01- 27 Fr eque ncy Time 01-29 Switch Frequency for S3/S4 Changes to S5 Unit: 0.01 Control mode VF VFPG SVC FOCPG FOCPM Factory setting: 0.00 Settings 0.00~120.00Hz It is used to set the switch frequency between S4 an...

Page 92 - Settings; Control Circuits of the External Terminal; -wire operation control

Chapter 4 Parameters | Revision Nov. 2008, VLE1, SW V1.03 4-37 Group 2 Digital Input/Output Parameters 02-00 2-wire/3-wire Operation Control Control mode VF VFPG SVC FOCPG TQCPG FOCPM Factory setting: 0 Settings 0 FWD/STOP, REV/STOP 1 FWD/STOP, REV/STOP (Line Start Lockout) 2 RUN/STOP, REV/FWD 3 RUN...

Page 97 - VF

Chapter 4 Parameters | 4-42 Revision Nov. 2008, VLE1, SW V1.03 02-10 Digital Input Operation Direction Unit: 1 Control mode VF VFPG SVC FOCPG TQCPG FOCPM Factory setting: 0 Settings 0 ~ 65535 This parameter is used to set the input signal level and it won’t be affected by the SINK/SOURCE status. Bit...

Page 98 - Control Mode; Function

Chapter 4 Parameters | Revision Nov. 2008, VLE1, SW V1.03 4-43 Control Mode Settings VF VFPG SVC FOCPG TQCPG FOCPM 2: Operation speed attained ○ ○ ○ ○ ○ ○ 3: Desired frequency attained 1 (Pr.02-25) ○ ○ ○ ○ ○ 4: Desired frequency attained 2 (Pr.02-27) ○ ○ ○ ○ ○ 5: Zero speed (frequency command) ○ ○ ○...

Page 103 - RU N; M e c ha n i ca l br a k e r e l e a s e; Turn On Delay of Magnetic Contact between Drive and Motor

Chapter 4 Parameters | 4-48 Revision Nov. 2008, VLE1, SW V1.03 When the AC motor drive runs after Pr.02-29 delay time, the corresponding multi-function output terminal (12: mechanical brake release) will be ON. This function should be used with DC brake. When the AC motor drive stops 12 after Pr.02-...

Page 106 - When it is torque compensation, the corresponding value for 0~

Chapter 4 Parameters | Revision Nov. 2008, VLE1, SW V1.03 4-51 Group 3 Analog Input/Output Parameters 03-00 Analog Input 1 (AUI1) Factory Setting: 1 03-01 Analog Input 2 (ACI) Factory Setting: 0 03-02 Analog Input 3 (AUI2) Factory Setting: 0 Control Mode Settings VF VFPG SVC FOCPG TQCPG FOCPM 0: No ...

Page 111 - Group 4 Multi-Step Speed Parameters

Chapter 4 Parameters | 4-56 Revision Nov. 2008, VLE1, SW V1.03 Group 4 Multi-Step Speed Parameters 04-00 Zero Step Speed Frequency Unit: 0.01 04-01 1st Step Speed Frequency Unit: 0.01 04-02 2nd Step Speed Frequency Unit: 0.01 04-03 3rd Step Speed Frequency Unit: 0.01 04-04 4th Step Speed Frequency U...

Page 112 - Group 5 IM Motor Parameters; Control; E q u i v a l e n t ci rc u i t f o r V F D - V L s e r ie s

Chapter 4 Parameters | Revision Nov. 2008, VLE1, SW V1.03 4-57 Group 5 IM Motor Parameters 05-00 Motor Auto Tuning Control mode VF Factory setting: 0 Settings 0 No function 1 Rolling test (Rs, Rr, Lm, Lx, no-load current) 2 Static Test Starting auto tuning by pressing RUN key and it will write the m...

Page 117 - Group 6 Protection Parameters

Chapter 4 Parameters | 4-62 Revision Nov. 2008, VLE1, SW V1.03 Group 6 Protection Parameters 06-00 Low Voltage Level Unit: 0.1 Control mode VF VFPG SVC FOCPG TQCPG FOCPM Settings 230V series 160.0~220.0Vdc Factory Setting: 180.0 460V series 320.0~440.0Vdc Factory Setting: 360.0 It is used to set the...

Page 118 - O ut pu t

Chapter 4 Parameters | Revision Nov. 2008, VLE1, SW V1.03 4-63 0 6-0 2 Over-Cu rren tDe tec tio nL ev el O ut pu t Fre qu en cy Ov er-Cu rren t Stal l p rev en tio n du ring Acce le rati on ,fre qu en cy h el d time a ctu al a ccel era tio n time whe n ov er- cu rren t s ta ll p rev en tio n is en a...

Page 120 - c u rr e n t

Chapter 4 Parameters | Revision Nov. 2008, VLE1, SW V1.03 4-65 06-10 Over-torque Detection Time (OT2) Unit: 0.1 Control mode VF VFPG SVC FOCPG TQCPG FOCPM Factory setting: 0.1 Settings 0.0 to 60.0 sec Pr.06-05 and Pr.06-08 determine the operation mode of the drive after the over-torque is detected v...

Page 121 - S tal l Pr e ven ti on L eve l

Chapter 4 Parameters | 4-66 Revision Nov. 2008, VLE1, SW V1.03 The parameter is set by the output frequency, current and operation time of the drive for activating the I 2 t electronic thermal protection function. The function will be activated for the 150% * setting current for the setting of Pr.06...

Page 123 - Reserved

Chapter 4 Parameters | 4-68 Revision Nov. 2008, VLE1, SW V1.03 29 Reserved 30 Memory write-in error (cF1) 31 Memory read-out error (cF2) 32 Isum current detection error (cd0) 33 U-phase current detection error (cd1) 34 V-phase current detection error (cd2) 35 W-phase current detection error (cd3) 36...

Page 124 - Fault code

Chapter 4 Parameters | Revision Nov. 2008, VLE1, SW V1.03 4-69 59 PU time-out (cP10) 60 Brake chopper error (bF) 61-62 Reserved 63 Safety loop error (Sry) 64 Mechanical brake error (MBF) 65 PGF5 hardware error It will record when the fault occurs and force stopping. For the Lv, it will record when i...

Page 127 - 0: Fan error signal output

Chapter 4 Parameters | 4-72 Revision Nov. 2008, VLE1, SW V1.03 Bit0 Bit1 Bit2 Bit3 Bit4 Bit5 Bit6 Fault code current Volt. OL SYS FBK EXI CE 15: Phase loss (PHL) ● 16: IGBT heat sink over-heat (oH1) ● 17: Heat sink over-heat (oH2)(for 40HP above) ● 18: TH1 open loop error (tH1o) ● 19: TH2 open loop ...

Page 128 - 5: PGF5 hardware error

Chapter 4 Parameters | Revision Nov. 2008, VLE1, SW V1.03 4-73 Bit0 Bit1 Bit2 Bit3 Bit4 Bit5 Bit6 Fault code current Volt. OL SYS FBK EXI CE 39: Ground current detection error (Hd3) ● 40: Auto tuning error (AuE) ● 41: PID feedback loss (AFE) ● 42: PG feedback error (PGF1) ● 43: PG feedback loss (PGF...

Page 131 - O N

Chapter 4 Parameters | 4-76 Revision Nov. 2008, VLE1, SW V1.03 07-05 Start-Point for DC Brake Unit: 0.01 Control mode VF VFPG SVC FOCPG Factory Setting: 0.00 Settings 0.00 to 120.00Hz This parameter determines the frequency when DC Brake will begin during deceleration. When the setting is less than ...

Page 132 - F r e q ue n c y

Chapter 4 Parameters | Revision Nov. 2008, VLE1, SW V1.03 4-77 Pr.07-07 to Pr.07-10 are for heavy load to prevent OV or OC occurs. F r e q ue n c y Ti m e D w e ll a t a c c e l. / de c e l. 0 7- 0 8D w e ll F r e q ue n c y a t A c ce l . 0 7- 0 7 D w e ll Tim e a t A c c e l . 0 7- 0 9 D w e ll Ti...

Page 137 - Group 8 PM Motor Parameters

Chapter 4 Parameters | 4-82 Revision Nov. 2008, VLE1, SW V1.03 Group 8 PM Motor Parameters 08-00 Motor Auto Tuning Control mode FOCPM Factory setting: 0 Settings 0 No function 1 Only for the unloaded motor, auto measure the angle between magnetic field and PG origin (08-09) 2 For PM motor parameters...

Page 140 - the magnetic field orientation.

Chapter 4 Parameters | Revision Nov. 2008, VLE1, SW V1.03 4-85 This function is used for searching magnetic field position and only for permanent magnet motor. When it doesn’t have origin-adjustment for encoder (Pr.08-09 is 360.0), it can only ensure that the motor operation efficiency can be up to ...

Page 141 - Group 9: Communication Parameters; Serial interface

Chapter 4 Parameters | 4-86 Revision Nov. 2008, VLE1, SW V1.03 Group 9: Communication Parameters When the AC motor drive is controlled by RS-485 serial communication, a converter, VFD-USB01 or IFD8500, should be connected between the AC motor drive and PC. R S - 48 5 Serial interface 1: +EV 2 : SG+ ...

Page 148 - Content

Chapter 4 Parameters | Revision Nov. 2008, VLE1, SW V1.03 4-93 The following is an example of CRC generation using C language. The function takes two arguments: Unsigned char* data Å a pointer to the message buffer Unsigned char length Å the quantity of bytes in the message buffer The function retur...

Page 149 - Digital input state

Chapter 4 Parameters | 4-94 Revision Nov. 2008, VLE1, SW V1.03 Content Address Function Bit 12 1: disable bit 06-11 00B: No function 01B: operated by digital keypad 02B: operated by Pr.00-15 setting Bit 13~14 03B: change operation source Bit 15 Reserved 2001H Frequency command Bit 0 1: EF (external ...

Page 150 - Exception

Chapter 4 Parameters | Revision Nov. 2008, VLE1, SW V1.03 4-95 3.6 Exception response: The AC motor drive is expected to return a normal response after receiving command messages from the master device. The following depicts the conditions when no normal response is replied to the master device. The...

Page 151 - Response Delay Time

Chapter 4 Parameters | 4-96 Revision Nov. 2008, VLE1, SW V1.03 09-05 Response Delay Time Unit: 0.1 Control mode VF VFPG SVC FOCPG TQCPG FOCPM Factory Setting: 2.0 Settings 0.0 ~ 200.0 ms This parameter is the response delay time after AC drive receives communication command as shown in the following...

Page 155 - Z S ig n a l

Chapter 4 Parameters | 4-100 Revision Nov. 2008, VLE1, SW V1.03 10-08 Encoder Slip Detection Time Unit: 0.1 Control mode VFPG SVC FOCPG FOCPM Factory Setting: 0.5 Settings 0.0 to 10.0 sec 10-09 Encoder Stall and Slip Error Treatment Control mode VFPG SVC FOCPG FOCPM Factory Setting: 2 Settings 0 War...

Page 156 - Hz

Chapter 4 Parameters | Revision Nov. 2008, VLE1, SW V1.03 4-101 10-12 ASR (Auto Speed Regulation) Control (I) of Zero Speed Unit: 0.001 Control mode VF VFPG SVC FOCPG FOCPM Factory Setting: 0.100 Settings 0.000 to 10.000 sec 10-13 ASR (Auto Speed Regulation) control (P) 1 Unit: 0.1 Control mode VF V...

Page 162 - PI

Chapter 4 Parameters | Revision Nov. 2008, VLE1, SW V1.03 4-107 After finishing estimating and set Pr.11-00=1 (auto tuning), using Pr.11-09/11-10 to reduce overshoot. Please adjust PDFF gain value by actual situation. Besides traditional PI control, it also provides PDFF function to reduce overshoot...

Page 165 - 11BH needs to be converted to binary value before entering.

Chapter 4 Parameters | 4-110 Revision Nov. 2008, VLE1, SW V1.03 Example 2: If it needs to enter parameter address 2102H and 211BH by the digital keypad, 211BH needs to be converted to binary value before entering. The setting method of 2102H KPVL -CC 01 RU N JOG R EV EXT PU ST OP FW D E F R E Q. T S...

Page 167 - View User-defined Parameters

Chapter 4 Parameters | 4-112 Revision Nov. 2008, VLE1, SW V1.03 Group 13 View User-defined Parameters 13-00 | 13-31 View User-defined Parameters Control mode VF VFPG SVC FOCPG TQCPG FOCPM Factory Setting: - Settings - Refer to group 12 for details.

Page 168 - o cA

Revision Nov. 2008, VLE1, SW V1.03 5-1 Chapter 5 Troubleshooting 5.1 Over Current (OC) o cA o cd O C Over -current duri ng accel erati on Over -current duri ng accel erati on Over current Chec k i f there is any between the U, V, W and motor short circ ui ts and grounding Yes No No No No No No Yes Y...

Page 169 - G FF; Ground fault

Chapter 5 Troubleshooting | 5-2 Revision Nov. 2008, VLE1, SW V1.03 5.2 Ground Fault G FF Ground fault No Yes If output ci rcuit(cabl e or motor) of AC motor drive i s gr ounded? Remov e grounding Maybe AC motor dri ve has malfuncti on or misoperation due to noi se. Pleas e contact DELTA. 5.3 Over Vo...

Page 172 - eli minate nois e

Chapter 5 Troubleshooting | Revision Nov. 2008, VLE1, SW V1.03 5-5 5.7 Display of KPVL-CC01 is Abnormal Abnormal display or no di splay Turn the power off and power on again after dis pl ay is off No Yes Yes Yes No Display normal? AC motor driv e work s normall y Fix connect or and eli minate nois e...

Page 173 - Motor cannot Run

Chapter 5 Troubleshooting | 5-6 Revision Nov. 2008, VLE1, SW V1.03 5.9 Motor cannot Run Motor cannot run Check if CE01 displ ays normall y No No No No No No No No No No No No No No No Check if non-fuse breaker and magnetic contactor are ON Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Set them to ON R...

Page 174 - Motor Speed cannot be Changed

Chapter 5 Troubleshooting | Revision Nov. 2008, VLE1, SW V1.03 5-7 5.10 Motor Speed cannot be Changed Motor can run butcannot change speed Yes Yes Yes Yes Yes Yes Yes Yes No No No No No No No No No Chec k i f the setting of the max. frequenc y i s too l ow If the setting of frequencyi s out of range...

Page 175 - Motor Stalls during Acceleration

Chapter 5 Troubleshooting | 5-8 Revision Nov. 2008, VLE1, SW V1.03 5.11 Motor Stalls during Acceleration Motor s tal ls during accel er ati on Chec k i f acc el erationtime i s too s hort Yes Yes Yes Yes No No No No No No Inc rease setti ng ti me Yes Us e s pecial motor? Reduce load ori ncreas e the...

Page 176 - Environmental Condition

Chapter 5 Troubleshooting | Revision Nov. 2008, VLE1, SW V1.03 5-9 5.13 Electromagnetic/Induction Noise There are many noises surround the AC motor drives and invade it by radiation or power circuit. It may cause the misoperation of control circuit and even damage the AC motor drive. Of course, that...

Page 177 - Affecting Other Machines; serial reactor

Chapter 5 Troubleshooting | 5-10 Revision Nov. 2008, VLE1, SW V1.03 In additional, the microcomputer may not work in extreme low temperature and needs to have heater. 4. Store within a relative humidity range of 0% to 90% and non-condensing environment. Do not turn off the air conditioner and have e...

Page 178 - Chapter 6 Fault Code Information and Maintenance; Fault Code Information

Revision Nov. 2008, VLE1, SW V1.03 6-1 Chapter 6 Fault Code Information and Maintenance 6.1 Fault Code Information The AC motor drive has a comprehensive fault diagnostic system that includes several different alarms and fault messages. Once a fault is detected, the corresponding protective function...

Page 179 - Display; o c; Over-current during acceleration; EE; Over-current during deceleration; E E; Over-current during steady state operation

Chapter 6 Fault Code Information and Maintenance | 6-2 Revision Nov. 2008, VLE1, SW V1.03 6.1.1 Common Problems and Solutions Following fault name will only be displayed when using with optional digital keypad KPVL-CC01. E o c E a t c Ac E e l E E EE _ _ _ E E _ _ S = S to pR = Ru nF= Fa u lt D isp ...

Page 182 - t E; IGBT overheating; Overload; T h; Motor overheating

Chapter 6 Fault Code Information and Maintenance | Revision Nov. 2008, VLE1, SW V1.03 6-5 Display Description a He S t E k i n H E o a E t E E F E E E 1 7 C e o d : a F u l t IGBT overheating IGBT temperature exceeds protection level 40 to100HP: 100 o C Corrective Actions: 1. Ensure that the ambient...

Page 187 - personal injury due to immediate operation.

Chapter 6 Fault Code Information and Maintenance | 6-10 Revision Nov. 2008, VLE1, SW V1.03 N OT E Make sure that RUN command or signal is OFF before executing RESET to prevent damage or personal injury due to immediate operation.

Page 188 - Maintenance and Inspections

Chapter 6 Fault Code Information and Maintenance | Revision Nov. 2008, VLE1, SW V1.03 6-11 6.2 Maintenance and Inspections Before the check-up, always turn off the AC input power and remove the cover. Wait at least 10 minutes after all display lamps have gone out, and then confirm that the capacitor...

Page 192 - Ventilation channel of cooling system

Chapter 6 Fault Code Information and Maintenance | Revision Nov. 2008, VLE1, SW V1.03 6-15 Ventilation channel of cooling system Maintenance Period Check Items Methods and Criterion Daily Half Year One Year If there is any obstruction in the heat sink, air intake or air outlet Visual inspection { ...

Page 194 - Appendix A Specifications; Voltage Class

Revision Nov. 2008, VLE1, SW V1.03 A-1 Appendix A Specifications There are 230V and 460V models for customers to choose by their requirement. Voltage Class 230V Class Model Number VFD-XXXVL 055 075 110 150 185 220 300 370 Max. Applicable Motor Output (kW) 5.5 7.5 11 15 18.5 22 30 37 Max. Applicable ...

Page 195 - E le va t o r D u ty

Appendix A Specifications | A-2 Revision Nov. 2008, VLE1, SW V1.03 N OT E **Rated Output Current for Elevators (A) E le va t o r D u ty 2 5 0 2 0 0 1 5 0 1 0 0 5 0 0 - 5 0 -1 0 0 -1 5 0 -2 0 0 -2 5 0 1 0 2 0 3 0 4 0 5 0 6 0 # 2 # 3 # 4 # 5 # 6 # 7 * 1 * 2 * 3 * 4 * 5 * 6 * 7 # 1 Tim e (se co n d s) ...

Page 196 - General Specifications

Appendix A Specifications | Revision Nov. 2008, VLE1, SW V1.03 A-3 General Specifications Control System 1: V/f, 2: VF+PG, 3: SVC, 4: FOC+PG, 5: TQR+PG, 6:FOC+PM Start Torque Starting torque is 150% at 0.5Hz and 0Hz with control modes FOC + PG and FOC+PM Speed Control Range 1:100 Sensorless vector (...

Page 198 - Appendix B Accessories; drive. Do NOT use with other drive to prevent damage.

Revision Nov. 2008, VLE1, SW V1.03 B-1 Appendix B Accessories General Precautions This VFD-VL AC motor drive has gone through rigorous quality control tests at the factory before shipment. If the package is damaged during shipping, please contact your dealer. The accessories produced by Delta ar...

Page 199 - B.1 All Brake Resistors & Brake Units Used in AC Motor Drives; Voltage

Appendix B Accessories | B-2 Revision Nov. 2008, VLE1, SW V1.03 B.1 All Brake Resistors & Brake Units Used in AC Motor Drives Applicable Motor Voltage hp kW Full Load Torque Nm Resistor value spec for each AC Motor Drive Brake Torque 10%ED Min. Equivalent Resistor Value for each AC Motor Drive 7...

Page 200 - prevent damaging the brake resistor.

Appendix B Accessories | Revision Nov. 2008, VLE1, SW V1.03 B-3 the brake resistor from damage due to frequent brake, or due to brake unit keeping operating resulted from unusual high input voltage. Under such circumstance, just turn off the power to prevent damaging the brake resistor. 4. If damage...

Page 201 - B.1.1 Dimensions and Weights for Brake Resistors

Appendix B Accessories | B-4 Revision Nov. 2008, VLE1, SW V1.03 B.1.1 Dimensions and Weights for Brake Resistors (Dimensions are in millimeter) Order P/N: BR080W200, BR080W750, BR300W070, BR300W100, BR300W250, BR300W400, BR400W150, BR400W040 Model no. L1 L2 H D W Max. Weight (g) BR080W200 BR080W750 ...

Page 206 - B.3 Fuse Specification Chart; Smaller fuses than those shown in the table are permitted.

Appendix B Accessories | Revision Nov. 2008, VLE1, SW V1.03 B-9 B.2 Non-fuse Circuit Breaker Chart For 1-phase/3-phase drives, the current rating of the breaker shall be within 2-4 times maximum input current rating. 3-phase Model Recommended Input Current (A) Model Recommended Input Current (A) VFD...

Page 207 - Line Fuse

Appendix B Accessories | B-10 Revision Nov. 2008, VLE1, SW V1.03 Line Fuse Model I (A) Input I (A) Output I (A) Bussmann P/N VFD300VL23A 110 120 225 JJN-225 VFD300VL43A 60 60 125 JJN-125 VFD370VL23A 142 145 250 JJN-250 VFD370VL43A 63 73 150 JJN-150 VFD450VL43A 90 91 175 JJN-175 VFD550VL43A 130 110 2...

Page 208 - B.4.1 AC Input Reactor Recommended Value

Appendix B Accessories | Revision Nov. 2008, VLE1, SW V1.03 B-11 B.4 AC Reactor B.4.1 AC Input Reactor Recommended Value 460V, 50/60Hz, 3-Phase Inductance (mH) kW HP Fundamental Amps Max. continuous Amps 3% impedance 5% impedance 5.5 7.5 12 18 2.5 4.2 7.5 10 18 27 1.5 2.5 11 15 25 37.5 1.2 2 15 20 3...

Page 210 - Mn

Appendix B Accessories | Revision Nov. 2008, VLE1, SW V1.03 B-13 Correct wiring M1 M2 Mn reactor AC motor driv e AC motor driv e AC motor driv e motor motor motor Application 2 Question Silicon rectifier and AC motor drive is connected to the same power. Surges will be generated at the instant of si...

Page 211 - Correct wiring

Appendix B Accessories | B-14 Revision Nov. 2008, VLE1, SW V1.03 Correct wiring DC power reactor reactor AC motor driv e motor silicon r ectifier Application 3 Question Used to improve the input power factor, to reduce harmonics and provide protection from AC line disturbances. (surges, switching sp...

Page 212 - Note; Diagram B

Appendix B Accessories | Revision Nov. 2008, VLE1, SW V1.03 B-15 B.5 Zero Phase Reactor (RF220X00A) Recommended Wire Size Cable type ( Note ) AWG mm 2 Nominal (mm 2 ) Qty. Wiring Method ≦ 10 ≦ 5.3 ≦ 5.5 1 Diagram A Single- core ≦ 2 ≦ 33.6 ≦ 38 4 Diagram B ≦ 12 ≦ 3.3 ≦ 3.5 1 Diagram A Three- core ≦ 1...

Page 213 - B.6 DC Choke Recommended Values

Revision Nov. 2008, VLE1, SW V1.03 B-16 B.6 DC Choke Recommended Values 230V DC Choke Input voltage kW HP DC Amps Inductance (mh) 5.5 7.5 32 0.85 7.5 10 40 0.75 11 15 62 Built-in 15 20 92 Built-in 18.5 25 110 Built-in 22 30 125 Built-in 30 40 - Built-in 230Vac 50/60Hz 3-Phase 37 50 - Built-in 460V D...

Page 214 - reference and please see the product for actual appearance.; PO N; Display Message; F R; OU; Press MODE key

Appendix B Accessories | Revision Nov. 2008, VLE1, SW V1.03 B-17 B.7 Digital Keypad KPVL-CC01 The digital keypad is the display of VFD-VL series. The following keypad appearance is only for reference and please see the product for actual appearance. B.7.1 Description of the Digital Keypad KPVL-CC01 ...

Page 215 - SY

Appendix B Accessories | B-18 Revision Nov. 2008, VLE1, SW V1.03 Display Message Descriptions - DC S BU O E V A L T G E E E E R E E EE 1 E 7 0 6 . V E d c Press MODE key Displays the voltage of DC BUS T OU T P U U E C E RR N E T E E S E E E E 0 E E 0 . 0 A s mp Press MODE key Displays the output cur...

Page 216 - Se lect io n Mo de

Appendix B Accessories | Revision Nov. 2008, VLE1, SW V1.03 B-19 B.7.2 How to Operate the Digital Keypad KPVL-CC01 E F R E Q. T SE I P O N E T E E S E E EE 0 E 6 0 . 0 H E z E T OU T P U R E F . EQ E E EE E S E E E E 0 E0 0 . 0 H E z E - DC S B U O E V A L T G E E E E S E E E E 5 E 2 0 3 . V E d c T...

Page 217 - A D; To c op y p ara meter s

Appendix B Accessories | B-20 Revision Nov. 2008, VLE1, SW V1.03 R PA E AM P CO O Y C P E Y E E S E E E R E AD E 1 E E E E E R PA E AM P CO E Y E E E E E E S E E E R E AD E 1 E E E E E R PA E AM P CO Y E PY E E S E E E R E A D E 1 E E E E E R PA E AM P CO E Y E E E E E E S E A E S E VE v 1 E 1 0 . 0...

Page 218 - LABEL

Appendix B Accessories | Revision Nov. 2008, VLE1, SW V1.03 B-21 B.7.3 Dimension of the Digital Keypad Unit: mm [inch] B.7.4 Recommended Position the Rubber Magnet of the Digital Keypad This rubber magnet is shipped with the digital keypad. Users can adhere to anywhere of the back of the digital key...

Page 219 - Terminal Symbols

Appendix B Accessories | B-22 Revision Nov. 2008, VLE1, SW V1.03 B.8 PG Card (for Encoder) B.8.1 EMVL-PGABL B/ O VP A B Z Z/O A B Z B/O 0V Z/O U V W U V W 1. Terminals descriptions Terminal Symbols Descriptions Specifications VP Power source of encoder (use SW2 to switch 12V/5V) Voltage: +5V ± 0.5V ...

Page 220 - Line driver; V P

Appendix B Accessories | Revision Nov. 2008, VLE1, SW V1.03 B-23 2. Wire length Types of Pulse Generators Maximum Wire Length Wire Gauge Line Driver 100m 1.25mm 2 (AWG16) or above 3. Types of Pulse Generators (Encoders) Line driver Q Q Z /O 0 V A / OA / O B / O B / OZ /O V P 0 V AA B B ZZ P G E M V ...

Page 221 - Division factor; RESE; A leads B; When the switch is ON, it means logic 0.

Appendix B Accessories | B-24 Revision Nov. 2008, VLE1, SW V1.03 Settings and explanations Division factor RESE RVE I/M O D E O/MO DE RST A leads B B leads A X 0 0 1 A-/A B-/B A/O-/A/O B/O-/B/O A-/A B-/B A/O-/A/O B/O-/B/O A/O-/A/O B/O-/B/O X 0 1 1 A-/A B-/B A/O-/A/O B/O-/B/O A/O-/A/O B/O-/B/O A-/A B...

Page 222 - A B Z

Appendix B Accessories | Revision Nov. 2008, VLE1, SW V1.03 B-25 When PIN 2 and PIN 3 are set to 0, the input signals (A-/A and B-/B) of PG card should be square wave and A/O-/A/O and B/O-/B/O are the outputs of frequency divider. When PIN 2 is set to 0 and PIN 3 is set to 1, the input signals (...

Page 224 - Output Signal Setting of the Frequency Divider

Appendix B Accessories | Revision Nov. 2008, VLE1, SW V1.03 B-27 4. Output Signal Setting of the Frequency Divider It generates the output signal of division factor “n” after dealing with the input pulse. Please set by the switch SW1 on the card. ON 1 2 3 4 5 6 7 8 9 10 11 12 R E SERVE I/ MO DE O/ M...

Page 226 - S I N

Appendix B Accessories | Revision Nov. 2008, VLE1, SW V1.03 B-29 VFD-VL series 5 4 3 2 1 10 9 8 7 6 15 14 13 12 11 Pin NO Terminal Name Pin NO Terminal Name 1 B- 9 +5V 2 NC 10 SIN 3 Z+ 11 SIN’ 4 Z- 12 COS 5 A+ 13 COS’ 6 A- 14 NC 7 0V 15 NC 8 B+ A + A - Z + Z - B + B - S I N S I N ' C O S C O S ' + 5...

Page 227 - Sine line driver input signal; Signal output for PG feedback

Appendix B Accessories | B-30 Revision Nov. 2008, VLE1, SW V1.03 Terminal Symbols Descriptions Specifications SIN, SIN’, COS, COS’ Sine line driver input signal (absolute signal) 0 0 360 mech. 0 90 mech. 0 SI N COS 0. 8.. .. 1.2Vss (~~1Vss; Z =1k ) 0 J3 A/O , , B/ O, B Z/O , Z A/ O / O, / O Signal o...

Page 228 - This setting is NOT for EMVL-PGH01

Appendix B Accessories | Revision Nov. 2008, VLE1, SW V1.03 B-31 Settings and explanations Division factor RESE RVE I/M O D E O/MO DE RST A leads B B leads A X 0 0 1 A B A/O-/A/O B/O-/B/O A B A/O-/A/O B/O-/B/O A/O-/A/O B/O-/B/O X 0 1 1 A B A/O-/A/O B/O-/B/O A/O-/A/O B/O-/B/O A B A/O-/A/O B/O-/B/O A/...

Page 229 - Corresponding terminal

Appendix B Accessories | B-32 Revision Nov. 2008, VLE1, SW V1.03 that B leads A. A-/A is a square wave input. B/O-/B/O and B-/B should be input synchronously. A/O-/A/O is the output of frequency divider. Z/O-/Z/O of the PG card will act by the input signal of Z-/Z and don’t have the function of fr...

Page 230 - OB

Appendix B Accessories | Revision Nov. 2008, VLE1, SW V1.03 B-33 OB A / OA / O B / OB / OOA V P 0 V A + (+C O S ) B + (+S IN ) D a ta + E M V L - P GS 0 1 C L OC K + C L OC K - A - (R E F C OS ) B - (R E F S I N) P G D a ta - GN D E n co d e r 2. Terminals descriptions Terminal Symbols Descriptions ...

Page 231 - Grounding; DE

Appendix B Accessories | B-34 Revision Nov. 2008, VLE1, SW V1.03 Terminal Symbols Descriptions Specifications J4 Grounding Connected to the grounding of the power of the AC motor drive and used for PG shielding 4. Output Signal Setting of the Frequency Divider It generates the output signal of divis...

Page 233 - AC Drives; Installation

Appendix B Accessories | B-36 Revision Nov. 2008, VLE1, SW V1.03 B.9 AMD-EMI Filter Cross Reference AC Drives Model Number FootPrint VFD055VL43A, VFD075VL43A, VFD110VL43A, RF110B43CA Y VFD055VL23A, VFD075VL23A, VFD150V43A, VFD185VL43A 50TDS4W4C N VFD110VL23A, VFD150VL23A, VFD220VL43A, VFD300VL43A, V...

Page 234 - Use the cable with shielding (double shielding is the best).; Saddle on both ends

Appendix B Accessories | Revision Nov. 2008, VLE1, SW V1.03 B-37 1. Use the cable with shielding (double shielding is the best). 2. The shielding on both ends of the motor cable should be grounded with the minimum length and maximum contact area. 3. Remove any paint on metal saddle for good ground c...

Page 235 - Use a motor with enhanced insulation.; sum of the wiring length from AC motor drive to each motor.

Appendix B Accessories | B-38 Revision Nov. 2008, VLE1, SW V1.03 Use a motor with enhanced insulation. Connect an output reactor (optional) to the output terminals of the AC motor drive The length of the cable between AC motor drive and motor should be as short as possible (10 to 20 m or less)...

Page 240 - AV O 1 A G N D M O 1 0 M O 9 M O 8; MC M

Appendix B Accessories | Revision Nov. 2008, VLE1, SW V1.03 B-43 B.10 EMVL-IOA01 AV O 1 A G N D M O 1 0 M O 9 M O 8 M C M M O 7 M O 6 M O 5 M O 4 M O 3 Terminals Descriptions AVO1-AGND AVO2-AGND Multifunction analog voltage output terminal -10.0V~10.0V The analog output is defined by Pr.03-17 and Pr...

Page 242 - Descriptions; protections via hardware.

Appendix B Accessories | Revision Nov. 2008, VLE1, SW V1.03 B-45 Descriptions 1. When the power +24VDC is applied to S1 and S2 (S1 is +), the relay contacts of S3 and S4 are ON. When the power +24VDC isn’t applied to S1 and S2, the relay contacts of S3 and S4 are OFF. At the meanwhile, EMVL-ASF01 ca...

Page 244 - Appendix C How to Select the Right AC Motor Drive; Related Specification

Revision Nov. 2008, VLE1, SW V1.03 C-1 Appendix C How to Select the Right AC Motor Drive The choice of the right AC motor drive for the application is very important and has great influence on its lifetime. If the capacity of AC motor drive is too large, it cannot offer complete protection to the mo...

Page 245 - C.1 Capacity Formulas; When one AC motor drive operates one motor; cos

Appendix C How to Select the Right AC Motor Drive | C-2 Revision Nov. 2008, VLE1, SW V1.03 C.1 Capacity Formulas 1. When one AC motor drive operates one motor The starting capacity should be less than 1.5x rated capacity of AC motor drive The starting capacity= ) ( _ _ _ _ _ 5 . 1 375 cos 973 2 kVA ...

Page 246 - Symbol explanation; GD

Appendix C How to Select the Right AC Motor Drive | Revision Nov. 2008, VLE1, SW V1.03 C-3 2.3 When it is running continuously The requirement of load capacity should be less than the capacity of AC motor drive(kVA) The requirement of load capacity= ) ( _ _ _ _ _ cos kVA drive motor AC of capacity...

Page 247 - C.2 General Precaution; Selection Note; current and improve the input power efficiency.

Appendix C How to Select the Right AC Motor Drive | C-4 Revision Nov. 2008, VLE1, SW V1.03 C.2 General Precaution Selection Note 1. When the AC Motor Drive is connected directly to a large-capacity power transformer (600kVA or above) or when a phase lead capacitor is switched, excess peak currents m...

Page 248 - C.3 How to Choose a Suitable Motor; Standard motor; The energy loss is greater than for an inverter duty motor.; to; inverter duty motor.

Appendix C How to Select the Right AC Motor Drive | Revision Nov. 2008, VLE1, SW V1.03 C-5 model, (to shorten deceleration time only) or increase the capacity for both the motor and the AC Motor Drive. C.3 How to Choose a Suitable Motor Standard motor When using the AC Motor Drive to operate a stand...

Page 249 - following motor vibration problems:

Appendix C How to Select the Right AC Motor Drive | C-6 Revision Nov. 2008, VLE1, SW V1.03 8. Because of the high carrier frequency PWM control of the VFD series, pay attention to the following motor vibration problems: Resonant mechanical vibration: anti-vibration (damping) rubbers should be used...

Page 250 - Power Transmission Mechanism; AC motor drive; c ont in uous

Appendix C How to Select the Right AC Motor Drive | Revision Nov. 2008, VLE1, SW V1.03 C-7 Power Transmission Mechanism Pay attention to reduced lubrication when operating gear reduction motors, gearboxes, belts and chains, etc. over longer periods at low speeds. At high speeds of 50/60Hz and above,...

Page 251 - This page intentionally left blank.

Appendix C How to Select the Right AC Motor Drive | C-8 Revision Nov. 2008, VLE1, SW V1.03 This page intentionally left blank.