VYBO Electric Vector V810 User manual
Contents
Chapter 1 Introduction ...................................................................................... 1
1.0 Technical parameters......................................................................................... 1
1.1 Description of Name Plate ................................................................................ 4
1.2 Selection Guide - Performance tables ............................................................... 5
1.3 Drawing of external dimensions of the inverter - Dimension tables ................ 8
1.4 Inspection ........................................................................................................ 11
Chapter 2 Installation and wiring .................................................................... 12
2.1 Environment and installation requirements .................................................. 12
2.2 Installation space ............................................................................................ 13
2.3. Connection of inverter V 810 to power grid ................................................... 14
2.3.1 Connection the main power part of the inverter ......................................... 14
2.4 Terminal block configuration .......................................................................... 14
2.4.1 Main circuit terminal block ........................................................................... 14
2.4.2 NPN and PNP control circuit terminal block ................................................. 16
2.5 Wiring diagram of the V 810 inverter in the NPN mode ................................. 18
2.5.1 Wiring diagram of the V 810 inverter in PNP mode ..................................... 19
2.6 Main circuit connection ................................................................................... 20
2.6.1 Connection of the main circuit on the input side ......................................... 20
2.6.2 Main circuit connection on the inverter side ............................................... 21
2.6.3 Main circuit connection on the motor side .................................................. 21
2.6.4 Connection of the regeneration unit ............................................................ 22
2.6.5 Common DC bus connection ........................................................................ 22
2.6.6 Earth connection (PE) ................................................................................... 23
2.7 EMC compliant installation instructions ......................................................... 23
2.7.1 General EMC information ............................................................................. 24
2.7.2 EMC properties of the converter .................................................................. 24
2.7.3 EMC installation instructions ........................................................................ 24
Chapter 3 Operation ........................................................................................ 28
3.1 Description of the keyboard (control panel) ................................................... 28
3.2 The descriptions of the button’s function ...................................................... 28
3.3 The descriptions of the light indicator ............................................................ 29
3.4 Operation - parameter setting ........................................................................ 30
3.5 Running converter and PTC protection settings .............................................. 32
3.6 Quick setup - diagram ..................................................................................... 33
Chapter 4 function description (abbreviated) .................................................. 34
Group P0: Basic parameters .................................................................................. 34
Group P1: Start / Stop control ............................................................................... 38
Group P2: Motor parameters ................................................................................ 39
Group P3: Vector control parameters ................................................................. 42
Group P4: V/F control parameters ...................................................................... 44
Group P5: Input terminals X ................................................................................ 46
Group P6: Output terminals ................................................................................ 50
Group P7: Control panel and display .................................................................. 53
Group P8: Auxiliary functions .............................................................................. 56
Group P9: Faults and protection ......................................................................... 60
Group PA: PID process control functions ............................................................ 66
Group PB: Variable frequency, fixed length and count ....................................... 68
Group PC: Multiple functions and simple PLC function ...................................... 69
Group PD: Communication parameters .............................................................. 73
Group PP: Function codes defined by user ......................................................... 74
Group C0: Torque control and parameter limitation .......................................... 74
Group C5: Control optimization parameters ....................................................... 75
Group C6: FI curve setting (FI is FIV or FIC) ......................................................... 76
Group C9: Special function PID ............................................................................ 77
Group CC: Correction of FI/FO values ................................................................. 77
Group D0: Monitoring parameters...................................................................... 79
Chapter 5 Checking and removing errors........................................................ 80
5.1 Displaying and removing errors .................................................................... 80
5.2 Common errors and their solutions .............................................................. 86
Chapter 6 Maintenance ................................................................................. 89
6.1 Inspection ...................................................................................................... 89
6.2 Periodic maintenance ................................................................................... 89
6.3 Replacement of wearing parts ...................................................................... 90
6.4 V810 Inverter warranty ................................................................................ 90
6.4.1 Inverter tests .............................................................................................. 90
6.4.2 Warranty period ......................................................................................... 91
6.4.3 Warranty terms ............................................................................................ 91
6.4.4 The warranty does not apply to defects caused .............................................. 91
Chapter 7 Peripheral devices selection ...................................................... 93
7.1 Peripheral devices description .................................................................. 93
7.2 AC inductor specification ............................................................................... 94
7.3 Braking resistor specification ........................................................................ 96
Declaration of conformity ................................................................................... 99
Chapter 1 Introduction
1
Chapter 1: Introduction
1.0 Technical parameters
Parameter
VECTOR V 810
Standard functions
Control mode
V/F scalar control
SVC vector control with open circuit
CLVC vector control with close circuit
Maximum frequency
SVC, CLVC vector control: 0 - 300 Hz
V/F scalar control: 0 - 3200 Hz
Carrier frequency
1-16 kHz
The carrier frequency is automatically adjusted based on the load characteristic.
Input frequency
resolution
Digital setting 0.01 Hz
Analogy setting: maximum frequency x 0.025%
Initial torque
G type: 0.5 Hz/150% (SFVC)
G type: 0.5 Hz / 180% (CLVC)
P type: 0.5 Hz/100%
Speed range
1:100 (SVC)
1:1000 (CLVC)
Stability of speed
± 0.50 % (SVC)
± 0.02 % (CLVC)
Torque control accuracy
± 5% (CLVC)
Overload size
G type: 60s for 150% rated current, 3s for 180% rated current
P type: 60s for 120% rated current, 3s for 150% rated current
Increase of torque
Auto-boost or user manual boost 0.1% až 30.0%
V/F curve
Linear V/F curve
Multi-point V/F curve
N-voltage V/F curve (multiple of 1.2-voltage, 1.4- voltage, 1.6- voltage, 1.8-
voltage, modified)
V/F separation
Two types: complete separation; half separation
Ramp modes
Linear curve
The ramp of S-curve type
Four sets of acceleration / deceleration in ranges of 0.0-6500.0 sec
Input and output
Input terminals
8 digital inputs, binary inputs ON / OFF, 1 terminal X5 can support high speed pulse
input. All terminals have optional PNP or NPN.
2 analogue inputs, of which one FIV supports -10 V / +10 V; or a 0-10 V input and
the second FIC supports a 0-10V or 0-20mA (4-20 mA) input.
Input and
output
Output terminals
1 programmable open collector output: provides 1 output terminal (output of
open collector or high speed pulse output)
2 relay outputs, 2 analogue outputs: FOV and FOC with optional 0-20 mA (4-20
mA) or 0-10 V output
Chapter 1 Introduction
2
PG
PG cards
The inverter is equipped with a port for PG cards (for encoder), or PG cards for use
with a resolver, etc..
Standard functions
DC braking
Braking frequency: 0.00 Hz to maximum frequency
Braking time: 0.0-36.0 s
Braking current: 0.0% -100.0%
Brake unit
Models up to 18.5 kW have a built-in brake unit as standard.
Control in JOG mode
(stepping)
JOG frequency range: 0.00-50.00 Hz
JOG acceleration / deceleration time: 0.0-6500.0 s
Implement multiple
preset speeds PLC
Implemented up to 16 speeds using a simple PLC function or combinations of end
states X.
PTC
Input for PTC motor thermal protection.
Built-in PID controller
Facilitates a process-controlled closed-loop control system.
Automatic voltage
control (AVR)
When changing the supply voltage, it can automatically maintain a constant output
voltage.
Overvoltage and
overcurrent control
Current and voltage are automatically limited during operation to prevent
frequent tripping due to overvoltage and over current.
Torque limitation and
control
It can automatically limit the torque and prevent frequent over current during run.
EMS STOP safety
function
"Emergency stop" system: In emergency situations, the inverter stops immediately
after activating EMS STOP.
Speed limitation of
current
It helps to prevent frequent errors due to over current of the AC motor
High power
AC motor control is realized by high power vector current control technology.
Time management
Time range: 0.0-6500.0 minutes
Communication
MODBUS RTU, PROFIBUS-DP
Channel of trigger
commands
According to the panel, control terminals, the serial communication port can be
switched in many ways.
Frequency source
10 types of frequencies, given by digital analogue voltage, analogue current, pulse,
serial port, X8, PID, can be switched in many ways.
Auxiliary source of
frequency
10 types of frequencies, it is easy to realize micro setup, frequency synthesizer.
LED display
Displays the parameters.
Lock keys and select
functions
It can block the buttons partially or completely and define the range of functions
of some buttons to prevent malfunctions.
Chapter 1 Introduction
3
Protective mode
Motor short-circuit detection at power-on, output phase loss protection, over-
current protection, over-voltage protection, under voltage protection, overheat
protection and overload protection.
EMC Compatibility
IEC 61000-4-6; IEC 61000-4-4; IEC 61000-4-11; IEC 61000-4-5
Standards
EN/IEC 61800-3: 2017; C1, which is suitable for the 1st environment;
EN/IEC 61800-3: 2017; C2, which is suitable for the 1st environment;
Installation in the
environment
Inside, avoid direct sunlight, salt, dust, corrosive or flammable gas, smoke, steam.
Resistance to chemical pollution Class 3C3 EN/IEC 60721-3-3. Resistance to
pollution by dust 3S3EN/IEC 60721-3-3.
Altitude
Under 1000 meters (reduce the power level when used above 1000 meters above
sea level.)
Ambient temperature
-10 °C ~ 40 °C (reduce the power level if the ambient temperature is between 40° C
and 50° C)
Humidity
Less than 95% relative humidity, no condensation IEC 60068-2-3
Vibration
Less than 5,9 m/s2 (0,6 g) IEC 60068-2-6
Storage temperature
-20°C to +60°C
Chapter 1 Introduction
4
1.1 Description of inverter name plate
MODEL: V 810 -4T0040G/0055P
0040: 4.0 kW / 0055: 5.5 kW
G: constant torque
P: variable torque
2S: 1 PH AC 230 V
4T: 3 PH AC 400 V
6T: 3 PH AC 690 V
810: Inverter series 810
V: VECTOR
Chapter 1 Introduction
5
1.2 Instructions for selecting a suitable inverter VECTOR V 810
Model / Type
Power
50/60 Hz
Motor power
(kW)
Wire cross
section
(mm2)
*recommended
Breaker
(A)
*recommended
Input contactor
(A)
*recommended
V 810-2S0004
1 phase
230 V
0.4
1.5
10
9
V 810-2S0007
0.75
1.5
16
12
V 810-2S0015
1.5
2.5
25
18
V 810-2S0022
2.2
4.0
32
25
V 810-2S0030
3.0
6.0
40
32
V 810-4T0004
3 phases
400 V
0.4
1.5
6
9
V 810-4T0007
0.75
1.5
6
9
V 810-4T0015
1.5
1.5
10
9
V 810-4T0022
2.2
1.5
10
9
V 810-4T0040G/0055P
4.0/5.5
2.5
16
12
V 810-4T0055G
5.5
2.5
20
18
V 810-4T0075P
7.5
4
32
25
V 810-4T0075G/0110P
7.5/11
4
32
25
V 810-4T0110G/0150P
11/15
6
40
32
V 810-4T0150G/0185P
15/18.5
10
50
38
V 810-4T0185G/0220P
18.5/22
10
50
40
V 810-4T0220G/0300P
22/30
16
63
50
V 810-4T0300G/0370P
30/37
25
100
65
V 810-4T0370G/0450P
37/45
25
100
80
V 810-4T0450G/0550P
45/55
35
125
95
V 810-4T0550G/0750P
55/75
50
160
115
V 810-4T0750G/0900P
75/90
70
225
170
V 810-4T0900G/1100P
90/110
95
250
205
V 810-4T1100G/1320P
110/132
120
315
245
V 810-4T1320G/1600P
132/160
120
350
300
V 810-4T1600G/1850P
160/185
150
400
300
V 810-4T1850G/2000P
185/200
185
500
410
V 810-4T2000G/2200P
200/220
185
500
410
V 810-4T2200G/2500P
220/250
240
630
475
V 810-4T2500G/2800P
250/280
240
630
475
V 810-4T2800G/3150P
280/315
240
800
620
V 810-4T3150G/3500P
315/350
2x150
800
620
V 810-4T3500G/4000P
350/400
2x185
1000
800
V 810-4T4000G/4500P
400/450
2x240
1250
800
V 810-4T4500G/5000P
450/500
2x240
1250
1000
Chapter 1 Introduction
6
1. 3-phase, 400V AC ± 15%, 1-phase 230V AC ± 15%
Model
Rated output
power (kW)
Rated input
current (A)
Rated output
current (A)
Motor power
(kW)
1-phase/3-phase AC 230 V -15%~15%
V810-2S0004
0.4
5.4
2.4
0.4
V810-2S0007
0.75
7.2
4.5
0.75
V810-2S0015
1.5
10
7
1.5
V810-2S0022
2.2
16
10
2.2
V810-2S0030
3.7
23
16
3.0
3-phase AC 400 V ±15%
V810-4T0004
0.4
3.4
1.2
0.4
V810-4T0007
0.75
3.8
2.5
0.75
V810-4T0015
1.5
5
3.7
1.5
V810-4T0022
2.2
5.8
5.0
2.2
V810-4T0040G/0055P
3.7/5.5
10/15
9/13
3.7/5.5
V810-4T0055G/0075P
5.5/7.5
15/20
13/17
5.5/7.5
V810-4T0075G/0110P
7.5/11
20/26
17/25
7.5/11
V810-4T0110G/0150 P
11.0/15
26/35
25/32
11/15
V810-4T0150G/0185 P
15/18.5
35/38
32/37
15/18.5
V810-4T0185G/0220P
18.5/22
38/46
37/45
18.5/22
V810-4T0220G/0300P
22/30
46/62
45/60
22/30
V810-4T0300G/0370P
30/37
62/76
60/75
30/37
V810-4T0370G/0450P
37/45
76/90
75/90
37/45
V810-4T0450G/0550P
45/55
90/105
90/110
45/55
V810-4T0550G
55
105
110
55
V810-4T0750G
75
140
150
75
V810-4T0750G/0900P
75/90
140/160
150/176
75/90
V810-4T0900G/110OP
90/110
160/210
176/210
90/110
V810-4T1100G/1320P
110/132
210/240
210/253
110/132
V810-4T1320G/1600P
132/160
240/290
253/300
132/160
V810-4T1600G/1850P
160/185
290/330
300/340
160/185
V810-4T1850G/2000P
185/200
330/370
340/380
185/200
V810-4T2000G/2200P
200/220
370/410
380/420
200/220
V810-4T2200G/2500P
220/250
410/460
420/470
220/250
V810-4T2500G/2800P
250/280
460/500
470/520
250/280
V810-4T2800G/3150P
280/315
500/580
520/600
280/315
V810-4T3150G
315/350
580/620
600/640
315/350
V810-4T3500G
350/400
620/670
640/690
350/400
Chapter 1 Introduction
7
Model
Rated output
power (kW)
Rated input
current (A)
Rated output
current (A)
Motor power
(kW)
V810-4T4000G
400/450
670/790
690/790
400/450
V810-4T4500G
450/500
790/835
790/860
450/500
V810-4T5000G
500/560
835/920
860/950
500/560
V810-4T5600G
560/630
920/1050
950/1100
560/630
V810-4T6300G
630/710
1050/1126
1100/1280
630/710
V810-4T7100G
710/800
1126/1460
1280/1380
710/800
V810-4T8000G
800/900
1460/1640
1380/1640
800/900
V810-4T9000G
900/1000
1640/1800
1640/1720
900/1000
V810-4T10000G
1000
1800
1720
1000
2. 3-phase, 690 V AC ± 15%
Model
Motor
power
(kW)
Rated input
current (A)
External dimensions
Installation
dimensions
(mm)
wide
height
depth
V810-6T0110G/0150P
11
16
410
277
189
390*262*06.5
V810-6T0150G/0185P
15
20
V810-6T0185G/0220P
18.5
25
V810-6T0220G/0300P
22
28
V810-6T0300G/0370P
30
35
V810-6T0370G/0450P
37
45
V810-6T0450G/0550P
45
52
V810-6T0550G/0750P
55
63
595
300
236
573*200*09
V810-6T0750G/0900P
75
86
V810-6T0900G/110OP
90
98
V810-6T1100G/1320P
110
121
620
380
290
595*250*09
V810-6T1320G/1600P
132
150
V810-6T1600G/1850P
160
175
880
380
358
840*250*013
V810-6T1850G/2000P
185
198
V810-6T2000G/2200P
200
218
V810-6T2200G/2500P
220
240
V810-6T2500G/2800P
250
270
V810-6T2800G/3150P
280
320
995
630
350
971*500*011
V810-6T3150G/3500P
315
350
V810-6T3500G/4000P
350
380
Chapter 1 Introduction
8
Model
Motor
power
(kW)
Rated input
current (A)
External dimensions
Installation
dimensions
(mm)
wide
height
depth
V810-6T4000G/4500P
400
430
Wall
mounting
: 1040.
Switchbo
ard: 1515
680
400
Wall mounting:
1016*520*011
Switchboard:
550*300*013
V810-6T4500G/5000P
450
480
V810-6T5000G/5600P
500
540
V810-6T5600G/6300P
560
600
1800
650
920
550*800*017
V810-6T6300G/7100P
630
680
V810-6T7100G/8000P
710
750
1800
750
920
650*800*017
V810-6T8000G/9000P
800
860
V810-6T9000G/10000P
900
950
1800
900
920
800*800*017
V810-6T10000G
1000
1080
1.3 Drawing of the external dimensions of the inverter
Chapter 1 Introduction
9
Chapter 1 Introduction
10
Model
External dimensions
Installation
dimensions
A*B*Ø d
V mm
W
H
H1
D
Installation
Note
V810-2S0004
125
170
—
140
117*160*Ø5
Wall mounting
Of plastic
V810-2S0007
V810-2S0015
V810-2S0022
V810-2S0030
120
225
—
143
105*208*Ø5
Partly of
plastic
V810-4T0004
125
170
—
140
117*160*Ø5
Of plastic
V810-4T0007
V810-4T0015
V810-4T0022
V810-4T0040G/0055P
120
225
—
143
105*208*Ø5
Wall mounting
Partly of
plastic
V810-4T0055G/0075P
185
260
—
170
168*248*Ø6.5
Of plastic
V810-4T0075G/0110P
V810-4T0110G/0150P
210
330
—
190
195*310*Ø6.5
Partly of
plastic
V810-4T0150G/0185P
V810-4T0185G/0220P
277
410
—
189
262*390*Ø6.5
Metal cabinet
V810-4T0220G/0300P
V810-4T0300G/0370P
V810-4T0370G
V810-4T0370G/0450P
300
430
455
212
200*433*Ø9
V810-0450G/0550P
300
535
560
236
200*538*Ø9
V810-4T0550G
V810-4T0750P
V810-4T0750G/0900P
338
546
576
256.5
270*560*Ø9
New
V810-4T0900G/1100P
338
550
580
300
270*564*Ø9
V810-4T1100G/1320P
Chapter 1 Introduction
11
Model
External dimensions
Installation
dimensions
A*B*Ø d
W
V mm
W
H
H1
D
H
H1
V810-4T1320G/1600P
420
Wall:
730
Cabinet:
1130
Wall:
790
Cabinet:
1165
330
Wall:
300*765*Ø11
Switchboard:
250*350Ø12
Wall mounting / into the
switchboard
Metal cabinet
V810-4T1600G/1850P
V810-4T1850G/2000P
530
Wall:
800
Cabinet:
1300
Wall:
860
Cabinet:
1335
335
Wall:
400*835*Ø11
Switchboard:
250*450Ø12
V810-4T2000G/2200P
V810-4T2200G/2500P
V810-4T12500G/2800P
700
Wall:
880
Cabinet:
1380
Wall:
940
Cabinet:
1415
350
Wall:
600*915*Ø11
Switchboard:
250*620Ø12
V810-4T2800G/3150P
V810-4T3150G
V810-4T3500G
600
1600
—
800
550*700* Ø13
Into the switchboard
Metal cabinet
V810-4T4000G
V810-4T4500G
V810-4T5000G
650
1600
—
800
600*700* Ø13
V810-4T5600G
V810-4T6300G
V810-4T7100G
700
2200
—
1000
690*900* Ø13
V810-4T8000G
V810-4T9000G
V810-4T10000G
Control panel size for inverter over 5.5 kW: 141.5 mm * 79.5 mm
Control panel size for inverter under 4.0 kW: 99.5mm * 56mm
1.4 Inspection
● Do not install or use a inverter that is damaged or contains damaged parts, as it may cause injury.
After unpacking the inverter, check the following items:
1. Inspect the entire outer surface of the inverter for any scratches or other damage caused by shipping.
2. Make sure that the operating instructions and warranty card are included in the package.
3. Check the nameplate to make sure you have received the inverter you ordered.
4. Make sure the optional parts are the ones you need.
If the inverter or optional parts are damaged, contact your local sales representative.
Chapter 1 Introduction
12
• A person without proper training handling the device or a device in the event of a "WARNING"
indication can cause serious injury or property damage.
Only a person who has received training in the design, installation, commissioning and operation of
the equipment and has obtained a certificate is entitled to operate this equipment.
• The power wire must be securely connected and the device must be securely grounded.
• Even though the inverter does not work, there is still dangerous voltage at the following
terminals: - power terminals: R, S, T - motor connection terminals: U, V, W.
• After turning off the power, you should not operate the inverter for 5 minutes to ensure that the
device is completely discharged.
• The cross-sectional size of the ground wire must not be smaller than the power wire.
• When moving the inverter, hold it by the base and do not lift it by the panel, as the main unit may
fall, which may result in personal injury.
• To prevent fire, install the inverter on a fireproof surface (eg metal).
• When installing two or more inverters in one cabinet, a cooling fan should be available to ensure
that the air temperature in the cabinet is below 45 ° C. Failure to do so could result in fire or
damage to the equipment.
Chapter 2: Installation and wiring
2.1 Environment and installation requirements
The installation environment affects the life of the inverter and has a direct effect on the normal function, failure
to comply with the environmental specifications could lead to a fault in the inverter.
For the VECTOR V 810 series inverter, use the vertical installation to ensure the best possible air flow and heat
dissipation effect.
Ensure that you can meet the inverter's installation environment:
(1) - 10 ° C to + 40 ° C ambient temperature.
(2) Ambient humidity 0 ~ 95%, no condensation.
(3) Avoid direct sunlight.
(4) The surrounding environment does not contain corrosive gas and liquid.
(5) Dust-free environments, flying fibres, cotton and metallic particles.
(6) Without radioactive material and fuel.
(7) Distance from an electromagnetic interference source (e. g. an electric welding machine, a large powering
machine).
(8) Install on a flat, vibration-free surface, if you cannot avoid vibrations, add anti-vibration pad to reduce
vibration.
(9) Install the inverter in a well-ventilated place, easily accessible for maintenance and for solid non-flammable
material outside the heat source (e.g. braking resistor, etc.).
(10) Installing the inverter requires plenty of space, especially in case more inverter installations, be careful with
the location of the frequency inverter and place the cooling fans so that the ambient temperature is below 45°C.
(11) The rated output of the inverter applies to installations with an altitude of less than 1000 m. At an altitude
above 1000 m the inverter performance decreases.
Chapter 1 Introduction
13
2.2 Installation space
Installing multiple inverters.
Note: When using a installation one above the other, add an air spoiler.
Chapter 2 Wiring of V 810
14
2.3 Connection of inverter V 810 to power grid
2.3.1 Connection the main power part of the inverter
2.4 Terminal block configuration
2.4.1 Main circuit terminal block
Chapter 2 Wiring of V 810
15
a./ Main terminal block for types powered by 3 x 400 V (690 V), 0.75 to 4 kW with BR
b./ Main terminal block for types powered by 3 x 400 V (690 V), 5.5 to 7.5 kW with BR
c./ Main terminal block for types powered by 3 x 400 V (690 V), 11 to 15kW with BR.
d./ Main terminal block for types powered by 3 x 400 V (690 V), 18.5 to 110kW without BR
e./ Main terminal block for types powered by 3 x 400 V (690 V),18.5 to 30 kW with BR
f./ Main terminal block for types powered by 3 x 400 V (690 V), 132 to 315kW
Chapter 2 Wiring of V 810
16
g./ Main terminal block for types powered by 3 x 400 V (690 V), 350kW and more.
NOTE: “710-1000 kW inverters, top row, front port connection; second row, connection
via rear hole ".
The functions of the main circuit are summarized according to the symbols on the
terminal board in the following table. Connect the terminal block correctly for the
required purpose.
Name of terminal
Description
R, S, T
Terminals for connecting three-phase power supply
P, (-)
External brake unit connection terminals
P, Pr
External braking resistor connection terminals
P1, P/+
DC choke coil terminals (some models)
(-)
DC bus negative terminal
U, V, W
Terminals for connecting a three-phase output
Grounding terminal
2.4.2 NPN and PNP control circuit terminal block
NPN mode
PNP mode
This manual suits for next models
79
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