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EN-30

U1-08 Output power in kW

U1-09 Torque reference in % of the motor rated torque

U1-10

Input terminal 
status

Shows input ON/OFF status.

U1-11

Output termi-
nal status

Shows output ON/OFF status.

U1-12

Operation sta-
tus

Inverter operating status.

U1-13 Cumulative operation time
U1-20 Frequency reference after soft-starter
U1-34 OPE fault parameter
U1-51 Max Current during acceleration
U1-52 Max Current during deceleration
U1-53 Max Current during Top speed
U1-54 Max Current during leveling speed
U1-55 Number of travels

Fault Trace Data

U2-01 Current fault
U2-02 Last fault
U2-03 Reference frequency at fault
U2-04 Output frequency at fault
U2-05 Output current at fault
U2-06 Motor speed at fault
U2-07 Output voltage reference at fault
U2-08 DC bus voltage at fault
U2-09 Output power at fault
U2-10 Torque reference at fault
U2-11 Input terminal status at fault
U2-12 Output terminal status at fault

Param. 

Num.

Name

Description

1: FWD command
(S1) is ON
1: REV command
(S2) is ON
1: Multi input 1
(S3) is ON
1: Multi input 2
(S4) is ON
1: Multi input 3
(S5) is ON
1: Multi input 4
(S6) is ON
1: Multi input 5
(S7) is ON

1: Multi-function
contact output 1
(M1-M2) is ON
1: Multi-function
contact output 2
(M3-M4) is ON
1: Multi-function
contact output 3
(M5-M6) is ON
Not used 
(Always 0).
1: Error output
(MA/MB-MC) is 
ON

Run
1: Zero speed
1: Reverse
1: Reset signal
    input
1: Speed agree
1: Inverter ready

1: Minor fault

1: Major fault

U2-13 Operation status at fault
U2-14 Cumulative operation time at fault

Fault History Data

U3-01

to 

U3-04

Last fault to Fourth last fault

U3-05

to

U3-08

Cumulative operation time at fault 1 to 4

U3-09 

to

U3-14

Fifth last to tenth last fault

U3-15 

to

U3-20

Accumulated time of fifth to tenth fault

* The following errors are not recorded in the error log: 
    CPF00, 01, 02, 03, UV1, and UV2.

Digital Input Function Selections

3

Multi-step speed reference 1

4

Multi-step speed reference 2

6

Jog frequency command (higher priority than multi-step 
speed reference)

F

Not used (Set when a terminal is not used)

14

Fault reset (Reset when turned ON)

20 to 

2F

External fault; Input mode: NO contact/NC contact, Detec-
tion mode: Normal/during operation

80

Nominal Speed Selection (d1-09)

81

Intermediate Speed Selection (d1-10)

82

Releveling Speed Selection (d1-13)

83

Leveling Speed Selection (d1-17)

84

Inspection Run Selection (d1-14)

Digital Output Function Selections

0

During run 1 (ON: run command is ON or voltage is being 
output)

6

Inverter operation ready; READY: After initialization or no 
faults

8

During baseblock (NO contact, ON: during baseblock)

B

Car stuck/undertorque detection 1 NO (NO contact, ON: 
Overtorque/undertorque detection)

F

Not used. (Set when the terminal is not used.)

10

Minor fault (ON: Alarm displayed)

17

Car stuck/undertorque detection 1 NC (NC Contact, OFF: 
Torque detection)

1A

During reverse run (ON: During reverse run)

40

Brake Release Command

41

Output Contactor Close Command

Param. 

Num.

Name

Description

Summary of Contents for L7Z -

Page 1: ...Quick Start Guide L7Z Cat No I62E EN 01...

Page 2: ......

Page 3: ...n 13 Autotuning 14 Autotuning Mode Selection 14 Autotuning Alarms and Faults 15 Autotuning Procedure with Induction Motors 16 Autotuning Procedure for PM Motors 17 PM Motor Encoder Offset Tuning 18 Ri...

Page 4: ...RC interference suppression filters capacitors or overvoltage protection devices to the inverter input or output To avoid unnecessary over current faults etc being displayed the signaling contacts of...

Page 5: ...unauthorized persons must not be allowed access to these inverters Keep these Safety Precautions and Instructions for Use readily accessible and supply them to all persons with any form of access to t...

Page 6: ...is L7 inverter can drive induction motors as well as permanent magnet motors Always select the appropriate control mode For induction motors use V f Open Loop Vector or Closed Loop Vector control A1 0...

Page 7: ...dance grounding of HF interference The use of grounding straps instead of cables is therefore definitely advisable Moreover cable shields must be connected with purpose made ground clips 3 Laying Cabl...

Page 8: ...location without excessive oscillation Install the Inverter in a location free from chlorides Install the Inverter in a location free from direct sunlight Installation Orientation Install the Inverter...

Page 9: ...ter input or a DC reac tor at the DC reactor connection terminals Use a surge absorber or diode for inductive loads near the Inverter Inductive loads include magnetic con tactors electromagnetic relay...

Page 10: ...d ground Cable shields have to be grounded on both cable ends Main Circuit Terminals Main circuit terminal functions are summarized according to terminal symbols in Table 1 Wire the terminals correctl...

Page 11: ...ly for analog references 15 V Max current 20 mA A1 Frequency reference 0 to 10 V 100 0 to 10 V 20 k AC Analog reference neutral E G Shield wire optional ground line connection point Dig ital output si...

Page 12: ...S2 SC IP24V 24V CN5 A1 A3 B1 B3 B2 A2 External Power Supply Sinking Mode NPN S1 S2 SC IP24V 24V CN5 A1 A3 B1 B3 B2 A2 24 VDC Internal Power Supply Sourcing Mode PNP S1 S2 SC IP24V 24V CN5 A1 A3 B1 B3...

Page 13: ...ax 1A 30VDC max 1A M1 M2 M3 M5 M4 M6 Brake Command Factory setting Contactor Control Factory setting Inverter Ready Factory setting Multi function contact output 250VAC max 1A 30VDC max 1A Analog inpu...

Page 14: ...ent Key Selects menu items sets parameter numbers and decrements set values Used to move to the previous item or data DATA ENTER Key Enters menus and parameters and set validates parameter changes RUN...

Page 15: ...rce Analog Input Digital operator b1 02 0 Set up the analog digital I O s in the H1 xx H2 xx and H3 xx parameters Set up the Acceleration Deceleration times C1 xx S Curves Jerk C2 x Make test runs Fin...

Page 16: ...ode Selection As the first thing after power up one of the four control modes must be selected depending on the machine type The Closed Loop Vector modes require PG feedback cards Table 4 shows the re...

Page 17: ...p value E2 02 and the no load current E2 03 after the first run with nominal speed Autotuning for Line to Line Resistance T1 01 2 Non rotating autotuning for line to line resistance can be used in V f...

Page 18: ...tors have to be closed 5 For autotuning the BB and BB1 signals must be ON Inverter must not be in base block condition 6 Confirm that the motor is mechanically fixed and can not move 7 Power is suppli...

Page 19: ...02 2 3 Yes Enter auto tuning mode and set parameter T1 01 2 Set T1 02 Motor rated power T1 04 Motor rated current Press the UP button until Tuning Ready display appears Set T1 02 Motor rated power T1...

Page 20: ...wer supply if it is OFF Check parameter n8 35 If EnDat Hiperface is used check the encoder power supply check the CLOCK and DATA signal wiring Switch off the power supply No Yes Does a OPE06 fault occ...

Page 21: ...nd eliminate the fault source Open the contactors open the base block inputs and close the brake FINISH Is it possible to remove the ropes Does a CPF24 fault occur Balance the car so that it does not...

Page 22: ...Source Selection The speed reference source can be selected using parameter b1 01 The factory setting is the digital operator b1 01 0 i e the speeds can be selected using digital inputs Speed Selecti...

Page 23: ...ut the inverter decelerates to the leveling speed d1 17 when the selected speed signal is removed Inspection Speed can not be selected as travel speed To select the leveling speed as travel speed the...

Page 24: ...f d1 18 is set to 2 and no digital input is set to nominal speed selection the speed reference with speed selection input set is nominal speed d1 09 When the leveling speed signal is set the inverter...

Page 25: ...eleration time n5 05 must be tuned Motor Acceleration Time Auto Tuning n5 05 Before the n5 02 auto tuning is performed the motor data autotuning and the general setup should have been finished Do the...

Page 26: ...Increase the gain to improve the responsiveness to the speed reference Decrease the gain if vibrations or oscillations occur 1 The order of giving the UP or DOWN command has no influence 2 n5 01 shoul...

Page 27: ...04 0 1 or 2 and A1 02 3 or 6 The speed deviation is higher than the F1 10 value for the time F1 11 or longer Reduce the load Lengthen the acceleration time and deceleration time Check the mechanical s...

Page 28: ...rent exceeded the motor over load curve The overload curve is adjustable using parameter E2 01 Motor Rated Current L1 01 Motor Protection Selection and L2 02 Motor Protection Time Con stant Recheck th...

Page 29: ...eck the input voltage and the wiring of the input terminals Extend the settings in C1 01 03 05 07 Main Circuit MC Operation Failure No MC response during Inverter operation Replace the Inverter UV2 CT...

Page 30: ...too high or too low Closed Loop Vector for PM only Check the motor wiring Check the motor rated current input value Reduce or increase the current level for leakage inductance tuning by changing para...

Page 31: ...al P gain 2 Set the proportional gain 2 and the inte gral time 2 of the speed control loop ASR for the minimum frequency The setting is active only for acceleration C5 04 ASR integral I time 2 C5 06 A...

Page 32: ...me Param Num Name Description n5 03 Feed forward proportional gain Speed reference response will increase as the setting of n5 03 is increased n5 05 Motor accelera tion time tuning 0 Disabled 1 Enable...

Page 33: ...Speed agree 1 Inverter ready 1 Minor fault 1 Major fault U2 13 Operation status at fault U2 14 Cumulative operation time at fault Fault History Data U3 01 to U3 04 Last fault to Fourth last fault U3...

Page 34: ...EN 31...

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