英文(含通訊)
54UC
OPERATING MANUAL
MULTI POWER MONITOR
(4 digital displays, CC-Link)
MODEL
54UC
CONTENTS
BEFORE USE ................................................................................................................ 2
POINTS OF CAUTION....................................................................................................... 2
LIGHTNING SURGE PROTECTION........................................................................................ 2
COMPONENT IDENTIFICATION........................................................................................... 3
INSTALLATION.............................................................................................................. 4
TERMINAL CONNECTIONS................................................................................................ 5
COMMUNICATION CABLE CONNECTION................................................................................ 7
CONFIGURATION VIA INFRARED COMMUNICATION.................................................................. 7
CC-Link - COMMUNICATION.............................................................................................. 8
CC-Link - OPERATIONS.................................................................................................. 11
CC-Link - SETTING....................................................................................................... 13
CC-Link - MEASURED VARIABLES..................................................................................... 25
OPERATION FLOWCHART............................................................................................... 37
SETTING EXAMPLES..................................................................................................... 47
OPERATION EXAMPLES................................................................................................. 50
ERROR MESSAGES....................................................................................................... 51
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EM-6489-B Rev.4
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54UC
BEFORE USE ....
Thank you for choosing M-System. Before use, please check
contents of the package you received as outlined below.
If you have any problems or questions with the product,
please contact M-System’s Sales Office or representatives.
■ PACKAGE INCLUDES:
Multi power monitor..................................................... (1)
•Environmental temperature must be within -10 to +55°C
(14 to 131°F) with relative humidity within 90% RH in
order to ensure adequate life span and operation.
•Contrast of the LCD screen depends upon viewing angles. Choose the height and angle where it is the most legible.
•Do not apply physical impact to the front face.
•To ensure the designated ingress protection, insert the
gasket before attaching the mounting brackets.
•When using the mounting brackets, remove the mounting
screws and turn back the gasket as shown below.
■ MODEL NO.
Confirm that the model number described on the product is
exactly what you ordered.
■ OPERATING MANUAL
This manual describes necessary points of caution when
you use this product, including installation, connection, configuration and detailed operations.
The 54UC is programmable either by using the front control buttons or the PC Configurator Software. For detailed
information on the PC configuration, refer to the PMCFG
users manual. The PMCFG PC Configurator Software is
downloadable at M-System’s web site.
http://www.m-system.co.jp
Availability of certain functions explained in this manual
depends upon hardware options and firmware versions.
Those limited ones are identified with the following markings.
MARKING
DI
LIMITATION
Discrete input option
3P4W
3-phase / 4-wire system option
3.00
Ver.3.00 or later versions
POINTS OF CAUTION
■ POWER INPUT RATING & OPERATIONAL RANGE
•Locate the power input rating marked on the product and
confirm its operational range as indicated below.
100 – 240V AC rating: 85 – 264V AC, 47 – 66 Hz, <8VA
110 – 240V DC rating: 99 – 264V DC, <4W
■ GENERAL PRECAUTION
•Before you remove or mount the unit, turn off the power
supply and input signal for safety.
■ ENVIRONMENT
•Indoor use
•Do not install the unit where it is directly exposed to rain,
water droplets or sunlight.
•When heavy dust or metal particles are present in the air,
install the unit inside proper housing with sufficient ventilation.
•Do not install the unit where it is subjected to continuous
vibration. Do not apply physical impact to the unit.
Mounting Bracket
Hole
Panel
Gasket
■ WIRING
•Wiring to the unit must be conducted by qualified service
personnel.
•Do not install cables (power supply, input and output)
close to noise sources (relay drive cable, high frequency
line, etc.).
•Do not bind these cables together with those in which
noises are present. Do not install them in the same duct.
■ AND ....
•The unit is designed to function as soon as power is supplied, however, a warm up for 30 minutes is required for
satisfying complete performance described in the data
sheet.
•Altitude up to 2000 meters
• The equipment must be mounted inside a panel.
LIGHTNING SURGE PROTECTION
In order to protect the unit from lightning surges entering
through signal and power supply cables, use of appropriate
lightning surge protectors are recommended. Please contact M-System.
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EM-6489-B Rev.4
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54UC
COMPONENT IDENTIFICATION
■ FRONT VIEW
■ REAR VIEW
• 54UC-1
2
Data Displays
Control Buttons
∑
IU
PQS
PF THD
MAX
E PRG ESC
Voltage Input
Terminals
Current Input
Terminals
Power Input
Terminals
Network
Terminals
Discrete I/O
Terminals
Infrared Interface
• 54UC-2
Voltage Input
Terminals
2
Current Input
Terminals
Power Input
Terminals
Network
Terminals
Discrete I/O
Terminals
■ CONTROL BUTTON OPERATIONS
FUNCTIONS
BUTTON OPERATION
∑
IU
PQS
PF THD
MAX
E PRG ESC
∑
Hold down
E PRG ESC
Hold down
IU
∑
+
+
IU
Hold down
PQS
Hold down
PF THD
E PRG ESC
Hold down
Hold down
NORMAL MODE
Indicates values
Indicates Voltage or Current
Indicates Power
Indicates Power Factor or THD
SETTING MODE
Go Left
Go Right
Go Down
Go Up
Indicates totalized values
(max., min., average/demand)
Selects menu; Enables setting changes
Switches Energy readings
Switches to My Default mode
Switches to Setting mode
Indicates nth Harmonic distortion
Switches Energy reading units
Switches to Infrared Communication mode
Indicates the shortcut menu
Cancels setting changes
-------------------
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54UC
INSTALLATION
■ EXTERNAL DIMENSIONS unit: mm (inch)
■ 54UC-1
110 (4.33)
25 (.98)
100 (3.94)
91.5 (3.60)
110 (4.33)
91.5 (3.60)
2
2–M5 SCREW
MOUNTING BRACKET
■ 54UC-2
110 (4.33)
25 (.98)
115 (4.53)
91.5 (3.60)
110 (4.33)
91.5 (3.60)
2
2–M5 SCREW
MOUNTING BRACKET
■ PANEL CUTOUT unit: mm (inch)
• USING MOUNTING SCREWS
Remove the mounting brackets.
45 (1.77)
92
Panel thickness : 2 to 10 (0.08 to 0.39)
92
+0.8 (3.65)
0 (3.63)
+0.8 (3.65)
0 (3.63)
45 (1.77)
(3. 10
94 1 ±
–4 1d
.01 ia.
dia
.)
45 (1.77)
45 (1.77)
• USING MOUNTING BRACKETS
Remove the mounting screws.
2–6 (0.24) dia.
Panel thickness : 2 to 15 (0.08 to 0.59)
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EM-6489-B Rev.4
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54UC
TERMINAL CONNECTIONS
■ CONFIGURATION CODE: 1
2
P1
P2
U(+) NC
P3
DO/PO
+
1S
DI+
T1
NC DO/PO DI–
–
V(–)
System /
Application
3S
T3
T2
NC
T4
3L
NC
NC
NC
1S 1L
source
1
2
u
source
1
2
P1 P2
load
P1 P2
source
1
2
k
l
K
L
P1 P2 P3 1S 1L 3S 3L
load
1S 1L
v
U
V
k
l
K
L
source
1
2
3
Terminal
1S 1L
Single-phase /
3-wire
Three-phase /
3-wire,
unbalanced load
(2CT)
source
1
N/2
2/3
P1 P2 P3 1S 1L 3S 3L
load
source
1
N/2
2/3
k
l
K
L k
l
K
L
load
P1 P2 P3 1S 1L 3S 3L
source
1
N/2
2/3
load
P1 P2 P3 1S 1L
Three-phase /
3-wire,
balanced load
System /
Application
Terminal
P1 P2
Single-phase /
2-wire
1L
u
v
v
u
U
V
V
U
k
l
K
L k
l
K
L
load
P1 P2 P3 1S 1L
load
source
1
2
3
k
l
K
L
load
P1 P2 P3 1S 1L
source
1
2
3
u
v
v
u
U
V
V
U
k
l
K
L
load
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
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54UC
■ CONFIGURATION CODE: 2
P1
P2
P3
N
2
NC
1S
1L
2S
2L
3S
3L
DO/PO
U(+) NC
DI+ NC DA DB DG
+
V(–) FG1 DO/PO DI– NC NC SLD FG
–
System /
Application
P1 P2
Single-phase /
2-wire
System /
Application
Terminal
1S 1L
P1 P2
source
1
2
load
P1 P2
u
source
1
2
source
1
2
V
k
l
K
L
u
v
v
u
V
V
U
P2
P3
source
1
2
3
P2
P3
source
1
2
3
l
L
load
Three-phase /
4-wire,
balanced load
l
K
L
load
P2
P3
u
v
v
u
U
V
V
U
v
v
u
U
V
V
U
K
L
k
k
l
K
L
l
K
L
k
k
K
l
L
K
L
L
1S 1L
K
L
P1 N
load
source
1
2
3
N
source
1
2
3
N
1S 1L
k
l
K
L
load
1S 1L
V
P2
P3
k
l
K
L
load
N 1S 1L 2S 2L 3S 3L
P2
P3
N 1S 1L 2S 2L 3S 3L
k
l
K
L
k
K
P1
load
l
K
source
1
2
3
N
1S 1L 2S 2L 3S 3L
k
l
load
P1
L
l
L k
load
source
1
2
3
N
Three-phase /
4-wire,
unbalanced load
k
K
v
U
P1
load
l
load
source
1
2
3
N
l
l
L k
P1 N
1S 1L 2S 2L 3S 3L
l
k
K
source
1
2
3
N
1S 1L 2S 2L 3S 3L
k
source
1
N/2
2/3
P1 P2 P3 1S 1L 3S 3L
u
u
k
K
P1
source
1
2
3
k
K
P1 P2 P3 1S 1L 3S 3L
load
P1 N
load
P1
source
1
N/2
2/3
P1 P2 P3 1S 1L
P1 P2 P3 1S 1L
U
Single-phase /
3-wire
source
1
N/2
2/3
source
1
2
3
Three-phase /
3-wire,
unbalanced load
(3CT)
load
load
load
P1
l
L
1S 1L
source
1
2
3
source
1
2
3
k
K
P1 P2 P3 1S 1L 3S 3L
Three-phase /
3-wire,
unbalanced load
(2CT)
P1 P2 P3 1S 1L
Three-phase /
3-wire,
balanced load
1S 1L
v
U
Terminal
P2
P3
u v
u v
u v
U V
U V
U V
N
load
l
k
l
K
L
L
1S 1L 2S 2L 3S 3L
k
l
K
L
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
k
l
K
L
load
k
l
K
L
EM-6489-B Rev.4
P. 6 / 51
54UC
■ EXTERNAL INTERFACE CODE: 1
■ EXTERNAL INTERFACE CODE: 2
DI+
DO/PO1+
DISCRETE
INPUT
DIDO/PO+
DO/PODA
DB
DG
SLD
FG
DO/PO2+
DISCRETE
OUTPUT
DISCRETE
OUTPUT 2
DO/PO2DA
DB
DG
SLD
FG
To other
CC-Link devices
U(+)
U(+)
POWER
V(-)
DISCRETE
OUTPUT 1
DO/PO1-
V(-)
FG1
To other
CC-Link devices
POWER
FG1
Discrete Input Connection E.g.
Discrete Output Connection E.g.
DI+
+
DO/PO+
+
DI-
-
DO/PO-
-
COMMUNICATION CABLE CONNECTION
MASTER UNIT
TERMINATOR
DA
DB
DG
SLD
FG
blue
white
yellow
54UC
I/O UNIT
DA
DB
DG
SLD
FG
DA
DB
DG
SLD
FG
CONFIGURATION VIA INFRARED COMMUNICATION
max. 1 meter
Infrared Communication Adaptor
Multi Power Monitor
(model: COP-IRU)
(model: 54UC)
Note 1: Hold down IU button to enter to Infrared Communication mode (IR-READY on the display).
Hold down IU button to exit Infrared Communication mode.
During Infrared Communication mode, the analog outputs and Modbus communication are not available.
Note 2: COP-IRU communicates with one 54UC. DO NOT set more than one 54UC to Infrared Communication mode simultaneously.
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
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54UC
CC-Link - COMMUNICATION
■ CC-Link COMMUNICATION
Version
Version 1.10
Node Address
1 through 64
Transfer Rate
156 kbps, 625 kbps, 2.5 Mbps, 5 Mbps, 10 Mbps
Station Type
Remote Device
Occupied Nodes
One (1)
For setting Node address and/or Transfer rate, use PC configurator (model: PMCFG) or control buttons on the front panel.
In order to make the settings effective, turn on the power again, or reboot the device or reset CC-Link by using buttons on
the front panel.
For detail, refer to the PMCFG users manual and OPERATION FLOWCHART in this manual.
■ COM segment on the LCD screen
Indicates CC-Link communication
Turn on
Normal communications
Blinking (ON & OFF: 1 sec.)
CC-Link settings changed
Turn off
No communication
■ Reading from/Writing to 54UC via CC-Link
In order to read measured data from or write new settings to 54UC, access registers in the 54UC via CC-Link according
to the tables below. Each data in resister is 2’s complementary 32-bit integer. Refer to CC-Link - OPERATIONS in this
manual for register numbers and their contents.
Master to Slave (54UC)
RY0
Set ON in order to execute the command.
(Set OFF after RX0 turns ON.)
RY1
Command
0: Reading
1: Writing
RWw0
Register number
RWw1
-
RWw2
Data to write (LSW)
RWw3
Date to write (MSW)
RX0
Turns ON when the command executed
(Turns OFF after RY0 set OFF)
RX1
Same as RY1
RX1A
54UC system error
RX1B
Ready
RWr0
Same as RWw0
RWr1
Error code
RWr2
Data to read (LSW)
RWr3
Data to read (MSW)
1-bit data
1-Word data (16-bit data)
Slave (54UC) to Master
1-bit data
1-Word data (16-bit data)
■ Reading/Writing procedure
The sequence (1) through (6) shown in below is the procedure to read/write a set of data. When you need to read/write continuously, repeat the sequence.
(1)
RY1, RWwn*
Set Command
(2)
(5)
RY0
(Request Execution of Command)
(3)
RX0
(Completion of Command)
(6)
(4)
Read Reply
RX1, RWrn*
Time
*n = 0, 1, 2, 3
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54UC
■ Detail of Reading/Writing sequence
Sequence (1)
• Reading command
Set register number in RWw0.
Set RY1 OFF.
• Writing command
Set register number in RWw0.
Set the data to write in RWw2 and RWw3.
Set RY1 ON.
• Master to Slave (54UC)
Command
RY1
Reading
Writing
OFF
ON
RWw0
Register number
Register number
RWw2
----
Data to write (LSW)
RWw3
----
Data to write (MSW)
Sequence (2)
Set RY0 ON.
Following receiving a command, the 54UC copies RY1, RWw0, RWw2, RWw3 to RX1, RWr0, RWr2, RWr3.
• Master to Slave (54UC)
Require
RY0
Reading
Writing
ON
ON
• Slave (54UC) to Master
Acknowledge
RX1
RWr0
Reading
Writing
OFF
ON
Register number
Register number
RWr2
----
Data to write (LSW)
RWr3
----
Data to write (MSW)
Sequence (3)
Following completion of a command, the 54UC sets reply data in RWr2 and RWr3, and sets RX0 ON.
• Slave (54UC) to Master
Reply
Reading
Writing
RX0
ON
ON
RWr1
Error code
Error code
RWr2
Data to read (LSW)
----
RWr3
Data to read (MSW)
----
• Error Codes
Error code
Command
100H
111H
112H
Contents
No error
Reading
Command error
Device error (Time out)
113H
Device error (Communication)
200H
No error
211H
212H
213H
Writing
Command error
Device error (Time out)
Device error (Communication)
Note: Check the 54UC’s fault, if device error repeats.
Sequence (4)
Confirm RX0 is ON, and then read in reply data.
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54UC
Sequence (5)
Set RY0 OFF.
• Master to Slave (54UC)
Completion
Reading
Writing
RY0
OFF
OFF
Sequence (6)
Following setting RY0 OFF, the 54UC sets RX0 and RX1 OFF and clears RWr0 through RWr3 (sets OFF).
Acknowledge of Completion
Reading
Writing
RX1
OFF
OFF
RWr0
0
0
RWr1
0
0
RWr2
0
0
RWr3
0
0
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54UC
CC-Link - OPERATIONS
CC-Link registers are assigned to program and operate the unit via CC-Link network. It can also disable the view switching
control via the front buttons to fix the display view to a specific parameter combination.
■ CC-Link REGISTER ACCESS SETTING
RGTR.
PARAMETER
4943
Deactivate CC-Link register writing protection
Writing a preset passcode in this register deactivates the writing protection via CC-Link.
When the CC-Link passcode set in this register matches the preset one, setting ‘1’ or ‘2’ in the register address 4945 becomes available to enable writing in CC-Link registers.
Reading out the register value is not possible. It reads always ‘-1’ regardless of the code setting.
After writing is complete, be sure to set a value other than the passcode (‘0’ is recommended) to activate the
writing protection again.
4945
CC-Link register access setting
0 : Write disable (*)
1 : Write enable
2 : Write enable the count values
Other : Write disable
This setting is erased when the power supply to the unit is removed. It always starts with ‘0’ (Write disable)
when the power supply is turned on. Set ‘1’ or ‘2’ before starting writing at other registers.
In order to write a count value (e.g. active energy), set ‘2’ at this register. When it is set, the unit stops counting so that a new count value can be written in the register. Be careful to use ‘2’ setting because no counting
will be performed if the unit remains with this setting.
When the CC-Link register writing protection is enabled, this register setting cannot be changed from ‘0’ to ‘1’
or ‘2’ unless a correct security code is set in the register 4943.
(*) Factory setting
■ USER OPERATIONS
User operations include switching the display views and resetting alarm trips.
RGTR.
PARAMETER
5201
Button operation lock
0 : All key operations available (*)
1 : All key operations locked
2 : Lock the key operation to go to Setting mode only
5202
Data reading display
Shows the parameter set displayed on the three data displays. The display can be switched by writing at this
address from the host.
5203
Energy reading display
Shows the parameter type displayed on the bottom data display. The display can be switched by writing at
this address from the host.
5204
Energy reading display unit
0 : 0.1 kWh, 0.1 kvarh, 0.1 kVAh
1 : 0.1 Wh, 0.1 varh, 0.1 VAh (*)
Shows the unit (factor) of the parameter on the energy display (k = kilo). The display unit can be switched by
writing at this address from the host.
Exception: Count time (unit: h) is displayed always ‘without kilo’.
5205
Reset alarm trip
1 : Reset
0 : No resetting
5206
Automatic ∑ view switching
0 : Disable automatic switching (*)
1 : Enable automatic switching: ∑1 through ∑6 switched in 10 second intervals. Automatic switching is cancelled when one of the front control buttons are touched.
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
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54UC
■ SYSTEM OPERATIONS
System operations include switching the tariff or resetting energy counts, and rebooting.
RGTR.
PARAMETER
5329
Switch tariff
0 : High tariff (peak time) (*)
1 : Low tariff (off-peak time)
5330
Reset energy count
1 : Reset all values
2 : Reset all MAX / MIN values and set the present values.
3 : Reset all average (demand) values
0 : No resetting
Specify the extent of count resetting. The register is automatically set to ‘0’ when the resetting procedure is
complete after one of these values is written at this address. If another value is written before ‘0’ has been
set, the former resetting procedure ends indefinitely.
Specific values can be preset to each register by writing at this address from the host.
5331
Reboot system
Write ‘10001’ to reboot the system. (Any other values can be written but invalid.)
5332
Backup / restore setting
20002 : Backup the present setting
30003 : Restore the device with the backup setting data
The register is automatically set to ‘0’ when the procedure is complete after one of these values is written at
this register. If another value is written before ‘0’ has been set, the former procedure ends indefinitely.
5333
Passcode
0000 to 9999
0000 : Factory setting
Set and read out a passcode used to go into the Setting Mode using the front control buttons.
5334
CC-Link register writing protection passcode Setting a passcode to control writing registers via CC-Link.
1 to 999 999 999
0 : Cancel writing protection (*)
The CC-Link passcode must be set to the register 4943 before setting ‘1’ or ‘2’ in the register 4945 to deactivate the writing protection.
The value in this register is encrypted when it is read out. Only ‘0’ (Cancel protection) is read out as it is.
When a new code is set in this register, the register 4945 is immediately reset to ‘0’ so that a next command
will be already limited in access.
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
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54UC
CC-Link - SETTING
■ SYSTEM SETTING
RGTR.
PARAMETER
UNIT
5601
System configuration
0 : Single-phase / 2-wire (1CT)
1 : Single-phase / 3-wire (2CT)
2 : 3-phase / 3-wire, balanced load (1CT)
3 : 3-phase / 3-wire, unbalanced load (2CT) (*)
4 : 3-phase / 4-wire, balanced load (1CT) 3P4W
5 : 3-phase / 4-wire, unbalanced load (3CT) 3P4W
6 : 3-phase / 3-wire, unbalanced load (3CT) 3P4W
5602
CT rating, Primary
1 to 20 000 : Current (A)
Factory setting : 1 or 5
A
CT rating, Secondary
1 to 5
Factory setting : 1 or 5
A
VT rating, Primary
50 to 400 000 : Voltage (V)
Factory setting : 110
V
VT rating, Secondary
50 to 500 : Voltage (V)
Factory setting : 110
V
5603
5604
5606
5607
5608
5609
Frequency input
0 : Voltage (*)
1 : Current
----
Low-end cutout, Current
0 to 999 : Rated current × 0.001 × Specified value
Factory setting : 10
%/10
Low-end cutout, Voltage
0 to 999 : Rated voltage × 0.001 × Specified value
Factory setting : 10
%/10
■ DEMAND SETTING
RGTR.
5857
5858
PARAMETER
UNIT
Average (demand) current update interval
0 : External trigger signal
1 to 60 : Minutes
Factory setting : 30
Minutes
Average (demand) power update interval
0 : External trigger signal
1 to 60 : Minutes
Factory setting : 30
Minutes
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EM-6489-B Rev.4
P. 13 / 51
54UC
■ STYLE SETTING
RGTR.
PARAMETER
5987
Power factor (PF1 through PF3, PF) sign
0 : Standard (IEC) (*)
Identical to the active energy
1 : Special type 1 (IEEE) Positive in LAG, Negative in LEAD
5988 Reactive power (Q1 through Q3, Q) sign
0 : Standard (IEC) (*)
Positive from PF = 1.0 to 180° in LAG direction; Negative for the other direction
1 : Special type 1 Positive in LAG, Negative in LEAD
5989 Reactive power (Q1 through Q3) calculation (Q = Q1 + Q2 + Q3)
__________
2
2
0 : Standard (*) Qn = √ Sn – Pn Nsmp
1
1 : Reactive power meter method Qn = –––––– ∑ (Un
i – Nui) I i + (Nsmp / 4)
i=1
Nsmp
5990
Apparent power (S) calculation ________
0 : Standard (*) S = √ P2 + Q2
1 : Sum
S = S1 + S2 + S3
5991
Unit used to indicate power up to 9999
0 : With ‘k’ (0.000 k)
1 : Without ‘k’ (0000) (*)
Note: ‘1,’ ‘2,’ ‘3’ in expressions like Q1, Q2, Q3 indicate ‘R,’ ‘S,’ ‘T’ respectively.
■ DISCRETE I/O SETTING
RGTR.
PARAMETER
6113
Discrete output 1 function
6114
6115
6116
6117
6118
0 : Undefined (*)
1 : Energy count
2 : Alarm
Type of discrete output 1
0 : Normally open (*)
1 : Normally closed
Open at the power OFF regardless of this setting
Discrete input function DI
0 : Undefined (*)
1 : Update demand
2 : Reset energy count
3 : Reset alarm 4 : Tariff [On: high (peak), Off: low (off-peak)]
Type of discrete input DI
0 : Normally open (*)
1 : Normally closed
Discrete output 2 function
0 : Undefined (*)
1 : Energy count
2 : Alarm
Type of discrete output 2
0 : Normally open (*)
1 : Normally closed
Open at the power OFF regardless of this setting
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EM-6489-B Rev.4
P. 14 / 51
54UC
■ ENERGY SETTING DO
RGTR.
PARAMETER
UNIT
6241
Energy count 1 assigned to the discrete output 1
Refer to the table in the following page.
6242
Pulse weight for Energy count 1
0 : No pulse output (disabled)
1 to 100 000 : Specified value × 0.1 (kWh / kvarh / kVAh)
Factory setting : 10
6244
Pulse duration (width) for Energy count 1
1 to 20 : Specified value × 100 msec.
Factory setting : 1
6245
---kWh/ 10
kvarh/ 10
kVAh/ 10
sec/10
Tariff setting for Energy count 1
0 : Disable (*)
1 : Enable
----
6246
Energy count 2 assigned to the discrete output 2
Refer to the table in the following page.
----
6247
Pulse weight for Energy count 2
0 : No pulse output (disabled)
1 to 100 000 : Specified value × 0.1 (kWh / kvarh / kVAh)
Factory setting : 10
6249
Pulse duration (width) for Energy count 2
1 to 20 : Specified value × 100 msec.
Factory setting : 1
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
kWh/ 10
kvarh/ 10
kVAh/ 10
sec/10
EM-6489-B Rev.4
P. 15 / 51
54UC
■ ENERGY COUNT TYPE
SET VALUE
0
1
2
3
4
5
6
7
8
9
10
11
12
13
200
201
202
203
204
205
206
207
208
209
210
211
212
213
300
301
302
303
304
305
306
307
308
309
310
311
312
313
ID
T-EP
T-EQ
T-ES
T-EP–
T-EQ–
T-EQ+LAG
T-EQ+LEAD
T-EQ–LAG
T-EQ–LEAD
----
T-EQ+P
T-EQ–P
T-EPA
T-EQA
EP
EQ
ES
EP–
EQ–
EQ+LAG
EQ+LEAD
EQ–LAG
EQ–LEAD
----
EQ+P
EQ–P
EPA
EQA
L-EP
L-EQ
L-ES
L-EP–
L-EQ–
L-EQ+LAG
L-EQ+LEAD
L-EQ–LAG
L-EQ–LEAD
----
L-EQ+P
L-EQ–P
L-EPA
L-EQA
PARAMETER
Active energy, incoming (*)
Reactive energy, LAG
Apparent energy
Active energy, outgoing
Reactive energy, LEAD
Reactive energy, incoming, LAG
Reactive energy, incoming, LEAD
Reactive energy, outgoing, LAG
Reactive energy, outgoing, LEAD
Reserved. DO NOT USE.
Reactive energy, incoming
Reactive energy, outgoing
Active energy, (incoming – outgoing)
Reactive energy, (incoming + outgoing)
Active energy, high tariff, incoming
Reactive energy, high tariff, LAG
Apparent energy, high tariff
Active energy, high tariff, outgoing
Reactive energy, high tariff, LEAD
Reactive energy, high tariff, incoming, LAG
Reactive energy, high tariff, incoming, LEAD
Reactive energy, high tariff, outgoing, LAG
Reactive energy, high tariff, outgoing, LEAD
Reserved. DO NOT USE.
Reactive energy, high tariff, incoming
Reactive energy, high tariff, outgoing
Active energy, high tariff, (incoming – outgoing)
Reactive energy, high tariff, (incoming + outgoing)
Active energy, low tariff, incoming
Reactive energy, low tariff, LAG
Apparent energy, low tariff
Active energy, low tariff, outgoing
Reactive energy, low tariff, LEAD
Reactive energy, low tariff, incoming, LAG
Reactive energy, low tariff, incoming, LEAD
Reactive energy, low tariff, outgoing, LAG
Reactive energy, low tariff, outgoing, LEAD
Reserved. DO NOT USE.
Reactive energy, low tariff, incoming
Reactive energy, low tariff, outgoing
Active energy, low tariff, (incoming – outgoing)
Reactive energy, low tariff, (incoming + outgoing)
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EM-6489-B Rev.4
P. 16 / 51
54UC
■ ALARM SETTING
RGTR.
6369
6370
PARAMETER
UNIT
Power ON delay time
0 to 999 : Seconds
Factory setting : 0
Seconds
Latching
0 : No latching (*)
1 : Latching (Alarm trip is held until a reset command is received or power OFF)
----
6371
I1 thr. I3 - Current : High setpoint
Factory setting : 0
mA
6373
I1 thr. I3 - Current : Low setpoint
Factory setting : 0
mA
6375
I1 thr. I3 - Current : Alarm output
0 : Disable (*)
1 : Display only
2 : Display + discrete output
----
6376
6377
I1 thr. I3 - Current : Hysteresis (deadband)
0 to 999 : Specified value × 0.1 (%)
Factory setting : 0
I1 thr. I3 - Current : ON delay time
0 to 999 : Seconds
Factory setting : 0
%/10
Seconds
6379
IN - Neutral current : High setpoint 3P4W 3.00
Factory setting : 0
mA
6381
IN - Neutral current : Low setpoint 3P4W 3.00
Factory setting : 0
mA
6383
IN - Neutral current : Alarm output 3P4W 3.00
0 : Disable (*)
1 : Display only
2 : Display + discrete output
----
6384
6385
IN - Neutral current : Hysteresis (deadband) 3P4W 3.00
0 to 999 : Specified value × 0.1 (%)
Factory setting : 0
IN - Neutral current : ON delay time 3P4W 3.00
0 to 999 : Seconds
Factory setting : 0
%/10
Seconds
6387
U12 thr. U31 - Delta voltage : High setpoint
Factory setting : 0
V/100
6389
U12 thr. U31 - Delta voltage : Low setpoint
Factory setting : 0
V/100
6391
U12 thr. U31 - Delta voltage : Alarm output
0 : Disable (*)
1 : Display only
2 : Display + discrete output
----
6392
6393
U12 thr. U31 - Delta voltage : Hysteresis (deadband)
0 to 999 : Specified value × 0.1 (%)
Factory setting : 0
%/10
U12 thr. U31 - Delta voltage : ON delay time
0 to 999 : Seconds
Factory setting : 0
Seconds
6395
U1N thr. U3N - Phase voltage : High setpoint
Factory setting : 0
V/100
6397
U1N thr. U3N - Phase voltage : Low setpoint
Factory setting : 0
V/100
6399
U1N thr. U3N - Phase voltage : Alarm output
0 : Disable (*)
1 : Display only
2 : Display + discrete output
----
6400
6401
U1N thr. U3N - Phase voltage : Hysteresis (deadband)
0 to 999 : Specified value × 0.1 (%)
Factory setting : 0
U1N thr. U3N - Phase voltage : ON delay time
0 to 999 : Seconds
Factory setting : 0
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
%/10
Seconds
EM-6489-B Rev.4
P. 17 / 51
54UC
RGTR.
PARAMETER
6403
P - Active power : High setpoint
Factory setting : 0
W
6405
P - Active power : Low setpoint
Factory setting : 0
W
6407
P - Active power : Alarm output
0 : Disable (*)
1 : Display only
2 : Display + discrete output
----
6408
6409
UNIT
P - Active power : Hysteresis (deadband)
0 to 999 : Specified value × 0.1 (%)
Factory setting : 0
P - Active power : ON delay time
0 to 999 : Seconds
Factory setting : 0
%/10
Seconds
6411
Q - Reactive power : High setpoint
Factory setting : 0
var
6413
Q - Reactive power : Low setpoint
Factory setting : 0
var
6415
Q - Reactive power : Alarm output
0 : Disable (*)
1 : Display only
2 : Display + discrete output
----
6416
6417
Q - Reactive power : Hysteresis (deadband)
0 to 999 : Specified value × 0.1 (%)
Factory setting : 0
%/10
Q - Reactive power : ON delay time
0 to 999 : Seconds
Factory setting : 0
Seconds
6419
S - Apparent power : High setpoint
Factory setting : 0
VA
6421
S - Apparent power : Low setpoint
Factory setting : 0
VA
6423
S - Apparent power : Alarm output
0 : Disable (*)
1 : Display only
2 : Display + discrete output
----
6424
6425
S - Apparent power : Hysteresis (deadband)
0 to 999 : Specified value × 0.1 (%)
Factory setting : 0
S - Apparent power : ON delay time
0 to 999 : Seconds
Factory setting : 0
%/10
Seconds
6427
PF - Power factor : High setpoint
Factory setting : 0
%/100
6429
PF - Power factor : Low setpoint
Factory setting : 0
%/100
6431
PF - Power factor : Alarm output
0 : Disable (*)
1 : Display only
2 : Display + discrete output
----
6432
6433
PF - Power factor : Hysteresis (deadband)
0 to 999 : Specified value × 0.1 (%)
Factory setting : 0
PF - Power factor : ON delay time
0 to 999 : Seconds
Factory setting : 0
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
%/10
Seconds
EM-6489-B Rev.4
P. 18 / 51
54UC
RGTR.
PARAMETER
6435
F - Frequency : High setpoint
Factory setting : 6500
Hz/100
6437
F - Frequency : Low setpoint
Factory setting : 4500
Hz/100
6439
F - Frequency : Alarm output
0 : Disable (*)
1 : Display only
2 : Display + discrete output
----
6440
6441
UNIT
F - Frequency : Hysteresis (deadband)
0 to 999 : Specified value × 0.1 (%)
Factory setting : 0
F - Frequency : ON delay time
0 to 999 : Seconds
Factory setting : 0
%/10
Seconds
6443
I1 AVG thr. I3 AVG - Average (demand) current : High setpoint
Factory setting : 0
mA
6445
I1 AVG thr. I3 AVG - Average (demand) current : Low setpoint
Factory setting : 0
mA
6447
I1 AVG thr. I3 AVG - Average (demand) current : Alarm output
0 : Disable (*)
1 : Display only
2 : Display + discrete output
----
6448
6449
I1 AVG thr. I3 AVG - Average (demand) current : Hysteresis (deadband)
0 to 999 : Specified value × 0.1 (%)
Factory setting : 0
I1 AVG thr. I3 AVG - Average (demand) current : ON delay time
0 to 999 : Seconds
Factory setting : 0
%/10
Seconds
6451
IN AVG - Average (demand) neutral current : High setpoint 3P4W 3.00
Factory setting : 0
mA
6453
IN AVG - Average (demand) neutral current : Low setpoint 3P4W 3.00
Factory setting : 0
mA
6455
IN AVG - Average (demand) neutral current : Alarm output 3P4W 3.00
0 : Disable (*)
1 : Display only
2 : Display + discrete output
----
6456
6457
IN AVG - Average (demand) neutral current : Hysteresis (deadband) 3P4W 3.00
0 to 999 : Specified value × 0.1 (%)
Factory setting : 0
IN AVG - Average (demand) neutral current : ON delay time 3P4W 3.00
0 to 999 : Seconds
Factory setting : 0
%/10
Seconds
6459
P AVG - Average (demand) active power : High setpoint
Factory setting : 0
W
6461
P AVG - Average (demand) active power : Low setpoint
Factory setting : 0
W
6463
P AVG - Average (demand) active power : Alarm output
0 : Disable (*)
1 : Display only
2 : Display + discrete output
----
6464
6465
P AVG - Average (demand) active power : Hysteresis (deadband)
0 to 999 : Specified value × 0.1 (%)
Factory setting : 0
P AVG - Average (demand) active power : ON delay time
0 to 999 : Seconds
Factory setting : 0
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
%/10
Seconds
EM-6489-B Rev.4
P. 19 / 51
54UC
RGTR.
PARAMETER
UNIT
6467
Q AVG - Average (demand) reactive power : High setpoint
Factory setting : 0
var
6469
Q AVG - Average (demand) reactive power : Low setpoint
Factory setting : 0
var
6471
Q AVG - Average (demand) reactive power : Alarm output
0 : Disable (*)
1 : Display only
2 : Display + discrete output
----
6472
6473
Q AVG - Average (demand) reactive power : Hysteresis (deadband)
0 to 999 : Specified value × 0.1 (%)
Factory setting : 0
%/10
Q AVG - Average (demand) reactive power : ON delay time
0 to 999 : Seconds
Factory setting : 0
Seconds
6475
S AVG - Average (demand) apparent power : High setpoint
Factory setting : 0
VA
6477
S AVG - Average (demand) apparent power : Low setpoint
Factory setting : 0
VA
6479
S AVG - Average (demand) apparent power : Alarm output
0 : Disable (*)
1 : Display only
2 : Display + discrete output
----
6480
6481
S AVG - Average (demand) apparent power : Hysteresis (deadband)
0 to 999 : Specified value × 0.1 (%)
Factory setting : 0
%/10
S AVG - Average (demand) apparent power : ON delay time
0 to 999 : Seconds
Factory setting : 0
Seconds
6483
THD I1 thr. THD I3 - Current total harmonic distortion : High setpoint
Factory setting : 0
%/10
6485
THD I1 thr. THD I3 - Current total harmonic distortion : Low setpoint
Factory setting : 0
%/10
6487
THD I1 thr. THD I3 - Current total harmonic distortion : Alarm output
0 : Disable (*)
1 : Display only
2 : Display + discrete output
----
6488
6489
THD I1 thr. THD I3 - Current total harmonic distortion : Hysteresis (deadband)
0 to 999 : Specified value × 0.1 (%)
Factory setting : 0
%/10
THD I1 thr. THD I3 - Current total harmonic distortion : ON delay time
0 to 999 : Seconds
Factory setting : 0
Seconds
6491
THD IN - Neutral current total harmonic distortion : High setpoint 3P4W 3.00
Factory setting : 0
%/10
6493
THD IN - Neutral current total harmonic distortion : Low setpoint 3P4W 3.00
Factory setting : 0
%/10
6495
THD IN - Neutral current total harmonic distortion : Alarm output 3P4W 3.00
0 : Disable (*)
1 : Display only
2 : Display + discrete output
----
6496
6497
THD IN - Neutral current total harmonic distortion : Hysteresis (deadband) 3P4W 3.00
0 to 999 : Specified value × 0.1 (%)
Factory setting : 0
THD IN - Neutral current total harmonic distortion : ON delay time 3P4W 3.00
0 to 999 : Seconds
Factory setting : 0
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
%/10
Seconds
EM-6489-B Rev.4
P. 20 / 51
54UC
RGTR.
6499
PARAMETER
UNIT
THD U12 thr. THD U31 - Delta voltage total harmonic distortion : High setpoint%/10
%/10
Factory setting : 0
6501
THD U12 thr. THD U31 - Delta voltage total harmonic distortion : Low setpoint
Factory setting : 0
%/10
6503
THD U12 thr. THD U31 - Delta voltage total harmonic distortion : Alarm output
0 : Disable (*)
1 : Display only
2 : Display + discrete output
----
6504
6505
THD U12 thr. THD U31 - Delta voltage total harmonic distortion : Hysteresis (deadband)
0 to 999 : Specified value × 0.1 (%)
Factory setting : 0
%/10
THD U12 thr. THD U31 - Delta voltage total harmonic distortion : ON delay time
0 to 999 : Seconds
Factory setting : 0
Seconds
6507
THD U1N thr. THD U3N - Phase voltage total harmonic distortion : High setpoint
Factory setting : 0
%/10
6509
THD U1N thr. THD U3N - Phase voltage total harmonic distortion : Low setpoint
Factory setting : 0
%/10
6511
THD U1N thr. THD U3N - Phase voltage total harmonic distortion : Alarm output
0 : Disable (*)
1 : Display only
2 : Display + discrete output
----
6512
6513
THD U1N thr. THD U3N - Phase voltage total harmonic distortion : Hysteresis (deadband)
0 to 999 : Specified value × 0.1 (%)
Factory setting : 0
THD U1N thr. THD U3N - Phase voltage total harmonic distortion : ON delay time
0 to 999 : Seconds
Factory setting : 0
%/10
Seconds
6515
UT12 thr. UT31 - Phase angle between phase voltages : High setpoint
Factory setting : 0
°
6517
UT12 thr. UT31 - Phase angle between phase voltages : Low setpoint
Factory setting : 0
°
6519
UT12 thr. UT31 - Phase angle between phase voltages : Alarm output
0 : Disable (*)
1 : Display only
2 : Display + discrete output
----
6520
6521
UT12 thr. UT31 - Phase angle between phase voltages : Hysteresis (deadband)
0 to 999 : Specified value × 0.1 (%)
Factory setting : 0
UT12 thr. UT31 - Phase angle between phase voltages : ON delay time
0 to 999 : Seconds
Factory setting : 0
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
%/10
Seconds
EM-6489-B Rev.4
P. 21 / 51
54UC
■ LCD SETTING
RGTR.
PARAMETER
6625
LCD backlight operating mode (The backlight turns on regardless of this setting in case of alarms/errors.)
0 : AUTO (*) ON at alarm and operating;
OFF after the OFF TIMER time has been elapsed after the last operating.
1 : ON Continuously ON
2 : OFF
Continuously OFF
6626
LCD backlight OFF timer
1 to 999 : Seconds
Time to be elapsed after the last operating before the backlight is turned off.
Factory setting : 600
6627
LCD backlight brightness
1 to 3
(dark) 1 << brightness >> 3 (bright)
Factory setting : 2
6628
LCD update rate
0 to 60 : Seconds
Display data updating rate. Set ‘0’ for the maximum possible rate.
Factory setting : 0
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EM-6489-B Rev.4
P. 22 / 51
54UC
■ LCD BARGRAPH SETTING
The bargraph is indicated proportionally to the specified rating (100%). For the energy values, it indicates [Current × Voltage] as 100%
RGTR.
6769
6771
6773
6775
6777
6779
6781
6783
6785
6787
6789
6791
6793
6795
6797
6799
6801
6803
PARAMETER
UNIT
Current 100%
0 to 20 000 000: Current (mA)
Factory setting : 5 000
mA
Current 0%
0 to 20 000 000: Current (mA)
Factory setting : 0
mA
Voltage 100%
0 to 40 000 000: Voltage (V/100)
Factory setting : 30 000
V/100
Voltage 0%
0 to 40 000 000: Voltage (V/100)
Factory setting : 0
V/100
Active power 100%
0 to +2 000 000 000: Power (W)
Factory setting : 1 500
W
Active power 0%
-2 000 000 000 to +2 000 000 000: Power (W)
Factory setting : 0
W
Reactive power 100%
0 to +2 000 000 000: Power (var)
Factory setting : 1 500
var
Reactive power 0%
-2 000 000 000 to +2 000 000 000: Power (var)
Factory setting : 0
var
Apparent power 100%
0 to 2 000 000 000: Power (VA)
Factory setting : 1 500
VA
Apparent power 0%
0 to 2 000 000 000: Power (VA)
Factory setting : 0
VA
Power factor 100%
0 to +10 000: Power factor (%/100)
Factory setting : 10 000
%/100
Power factor 0%
-10 000 to +10 000: Power factor (%/100)
Factory setting : 0
%/100
Frequency 100%
4 500 to 6 500: Frequency (Hz/100)
Factory setting : 6 500
Hz/100
Frequency 0%
4 500 to 6 500: Frequency (Hz/100)
Factory setting : 4 500
Hz/100
Harmonic Distortion 100%
0 to 9 999: Harmonic distortion (%/10)
Factory setting : 1 000
%/10
Harmonic Distortion 0%
0 to 9 999: Harmonic distortion (%/10)
Factory setting : 0
%/10
Phase angle between phase voltages 100%
0 to +180: Phase angle (°)
Factory setting : 180
°
Phase angle between phase voltages 0%
-180 to +180: Phase angle (°)
Factory setting : -180
°
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EM-6489-B Rev.4
P. 23 / 51
54UC
■ ‘MY DEFAULT’ SETTING
Custom default view setting
RGTR.
6881
6882
PARAMETER
UNIT
‘My default’ time
0 : Disable (*)
1 to 999 : Seconds
The display returns to the preset view if the control buttons are untouched for the preset
time.
Seconds
‘My default’ data display view
Shows the parameter set displayed on ‘My default’ view.
-1 : Automatic cyclic switching of ∑1 through ∑6 as ‘My default’ view.
----
6883
‘My default’ energy display view
Shows the parameter type displayed on the bottom data display.
----
6884
‘My default’ energy reading display unit
0 : 0.1 kWh, 0.1 kvarh, 0.1 kVAh (*)
1 : 0.1 Wh, 0.1 varh, 0.1 VAh
Shows the unit (factor) of the parameter on the energy display (k = kilo).
----
■ ∑ VIEW DISPLAY PARAMETER SETTING
RGTR.
PARAMETER
7393
∑1, Line 1 - Measurand to be assigned
7394
∑1, Line 2 - Measurand to be assigned
7395
∑1, Line 3 - Measurand to be assigned
7396
∑1, Line 4 - Measurand to be assigned
7397
∑2, Line 1 - Measurand to be assigned
7398
∑2, Line 2 - Measurand to be assigned
7399
∑2, Line 3 - Measurand to be assigned
7400
∑2, Line 4 - Measurand to be assigned
7401
∑3, Line 1 - Measurand to be assigned
7402
∑3, Line 2 - Measurand to be assigned
7403
∑3, Line 3 - Measurand to be assigned
7404
∑3, Line 4 - Measurand to be assigned
7405
∑4, Line 1 - Measurand to be assigned
7406
∑4, Line 2 - Measurand to be assigned
7407
∑4, Line 3 - Measurand to be assigned
7408
∑4, Line 4 - Measurand to be assigned
7409
∑5, Line 1 - Measurand to be assigned
7410
∑5, Line 2 - Measurand to be assigned
7411
∑5, Line 3 - Measurand to be assigned
7412
∑5, Line 4 - Measurand to be assigned
7413
∑6, Line 1 - Measurand to be assigned
7414
∑6, Line 2 - Measurand to be assigned
7415
∑6, Line 3 - Measurand to be assigned
7416
∑6, Line 4 - Measurand to be assigned
■ SHORTCUT MENU FUNCTION
RGTR.
7553
PARAMETER
Resetting alarm trip
0 : Disable
1 : Enable (*)
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EM-6489-B Rev.4
P. 24 / 51
54UC
CC-Link - MEASURED VARIABLES
Each measured variable has different engineering unit (Refer to the table below). For example, when 40000 is read at the
register 41 for the 1 – 2 delta voltage, the actual voltage value equals to 400.0V = 40000 × 0.01, as the engineering unit for
this item is V/100 (0.01V).
Readable range for each parameter depends upon the parameter type, as shown in the table below. For example, Current
unit is applied to Line current or Neutral current, and Voltage unit is applied to the 1 – 2 delta voltage or the minimum value
voltage.
PARAMETER
Current
Voltage
Active power
Reactive power
Apparent power
Power factor
Frequency
Active energy
Reactive energy
Apparent energy
Energy count time
Harmonic
Phase angle between phase voltages
UNIT
mA
V/100
W
var
VA
%/100
Hz/100
kWh/10
kvarh/10
kVAh/10
h/10
%/10
°
RANGE
0 to 2 000 000 000 mA
0 to 20 000 000.00 V
-2 000 000 000 to 2 000 000 000 W
-2 000 000 000 to 2 000 000 000 var
0 to 2 000 000 000 VA
-1.0000 to 1.0000
0 or 40.00 Hz to 70.00 Hz
0 to 99 999 999.9 kWh (Reset to 0 when exceeding the max. value)
0 to 99 999 999.9 kvarh (Reset to 0 when exceeding the max. value)
0 to 99 999 999.9 kVAh (Reset to 0 when exceeding the max. value)
0 to 99 999 999.9 hours (Reset to 0 when exceeding the max. value)
0 to 999.9%
-180 to +180°
■ MOMENTARY VALUE
RGTR.
1
3
5
7
9
11
13
15
33
35
37
39
41
43
45
47
49
51
53
55
57
59
61
63
65
67
69
71
73
75
77
79
81
83
85
87
ID
I
U
P
Q
S
PF
F
DIR
I1
I2
I3
IN
U12
U23
U31
U1N
U2N
U3N
P1
P2
P3
Q1
Q2
Q3
S1
S2
S3
PF1
PF2
PF3
DIR1
DIR2
DIR3
UT12
UT23
UT31
PARAMETER
Current
Voltage
Active power
Reactive power
Apparent power
Power factor
Frequency
Phase difference direction (0 = inductive or lag, 1 = capacitive or lead)
Current, Line 1
Current, Line 2
Current, Line 3
Neutral current 3P4W 3.00
Delta voltage, 1 – 2
Delta voltage, 2 – 3
Delta voltage, 3 – 1
Phase voltage, Phase 1
Phase voltage, Phase 2
Phase voltage, Phase 3
Active power, Phase 1
Active power, Phase 2
Active power, Phase 3
Reactive power, Phase 1
Reactive power, Phase 2
Reactive power, Phase 3
Apparent power, Phase 1
Apparent power, Phase 2
Apparent power, Phase 3
Power factor, Phase 1
Power factor, Phase 2
Power factor, Phase 3
Phase difference direction, Phase 1 (0 = inductive or lag, 1 = capacitive or lead)
Phase difference direction, Phase 2 (0 = inductive or lag, 1 = capacitive or lead)
Phase difference direction, Phase 3 (0 = inductive or lag, 1 = capacitive or lead)
Phase angle between Phase 1 – 2 voltages
Phase angle between Phase 2 – 3 voltages
Phase angle between Phase 3 – 1 voltages
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
UNIT
mA
V/100
W
var
VA
%/100
Hz/100
---mA
mA
mA
mA
V/100
V/100
V/100
V/100
V/100
V/100
W
W
W
var
var
var
VA
VA
VA
%/100
%/100
%/100
---------°
°
°
EM-6489-B Rev.4
P. 25 / 51
54UC
■ ENERGY
Writing the following registers enables energy presetting. Set CC-Link Register Access in order to write in the energy and
fractions.
RGTR.
ID
PARAMETER
129
EP
Active energy, high tariff, incoming
kWh/10
UNIT
131
EQ
Reactive energy, high tariff, LAG
kvarh/10
133
ES
Apparent energy, high tariff
kVAh/10
135
EP–
Active energy, high tariff, outgoing
kWh/10
137
EQ–
Reactive energy, high tariff, LEAD
kvarh/10
139
141
EQ+LAG
EQ+LEAD
Reactive energy, high tariff, incoming, LAG
Reactive energy, high tariff, incoming, LEAD
kvarh/10
kvarh/10
143
145
EQ–LAG
EQ–LEAD
Reactive energy, high tariff, outgoing, LAG
Reactive energy, high tariff, outgoing, LEAD
kvarh/10
kvarh/10
147
TIMER
149
151
EQ+P
EQ–P
Energy count time, high tariff
Reactive energy, high tariff, incoming
Reactive energy, high tariff, outgoing
h/10
kvarh/10
kvarh/10
153
EPA
Active energy, high tariff, (incoming – outgoing)
kWh/10
155
EQA
Reactive energy, high tariff, (incoming + outgoing)
kvarh/10
161
L-EP
Active energy, low tariff, incoming
kWh/10
163
L-EQ
Reactive energy, low tariff, LAG
kvarh/10
165
L-ES
Apparent energy, low tariff
kVAh/10
167
L-EP–
Active energy, low tariff, outgoing
kWh/10
169
L-EQ–
Reactive energy, low tariff, LEAD
kvarh/10
171
173
L-EQ+LAG
L-EQ+LEAD
Reactive energy, low tariff, incoming, LAG
Reactive energy, low tariff, incoming, LEAD
kvarh/10
kvarh/10
175
177
L-EQ–LAG
L-EQ–LEAD
Reactive energy, low tariff, outgoing, LAG
Reactive energy, low tariff, outgoing, LEAD
kvarh/10
kvarh/10
179
L-TIMER
181
183
L-EQ+P
L-EQ–P
Energy count time, low tariff
Reactive energy, low tariff, incoming
Reactive energy, low tariff, outgoing
h/10
kvarh/10
kvarh/10
185
L-EPA
Active energy, low tariff, (incoming – outgoing)
kWh/10
187
L-EQA
Reactive energy, low tariff, (incoming + outgoing)
kvarh/10
193
EP_L
Active energy fraction, high tariff, incoming
kWh/(10×232)
195
EQ_L
Reactive energy fraction, high tariff, LAG
kvarh/(10×232)
197
ES_L
Apparent energy fraction, high tariff
kVAh/(10×232)
199
EP–_L
Active energy fraction, high tariff, outgoing
kWh/(10×232)
201
EQ–_L
Reactive energy fraction, high tariff, LEAD
kvarh/(10×232)
203
205
EQ+LAG_L
EQ+LEAD_L
Reactive energy fraction, high tariff, incoming, LAG
Reactive energy fraction, high tariff, incoming, LEAD
kvarh/(10×232)
kvarh/(10×232)
207
209
EQ–LAG_L
EQ–LEAD_L
Reactive energy fraction, high tariff, outgoing, LAG
Reactive energy fraction, high tariff, outgoing, LEAD
kvarh/(10×232)
kvarh/(10×232)
211
TIMER_L
213
215
EQ+P_L
EQ–P_L
Energy fraction count time, high tariff
seconds/1 000
Reactive energy fraction, high tariff, incoming
Reactive energy fraction, high tariff, outgoing
kvarh/(10×232)
kvarh/(10×232)
217
EPA_L
Active energy fraction, high tariff, (incoming – outgoing)
kWh/(10×232)
219
EQA_L
Reactive energy fraction, high tariff, (incoming + outgoing)
kvarh/(10×232)
225
L-EP_L
Active energy fraction, low tariff, incoming
kWh/(10×232)
227
L-EQ_L
Reactive energy fraction, low tariff, LAG
kvarh/(10×232)
229
L-ES_L
Apparent energy fraction, low tariff
kVAh/(10×232)
231
L-EP–_L
Active energy fraction, low tariff, outgoing
kWh/(10×232)
233
L-EQ–_L
Reactive energy fraction, low tariff, LEAD
kvarh/(10×232)
235
237
L-EQ+LAG_L
L-EQ+LEAD_L
Reactive energy fraction, low tariff, incoming, LAG
Reactive energy fraction, low tariff, incoming, LEAD
kvarh/(10×232)
kvarh/(10×232)
239
241
L-EQ–LAG_L
L-EQ–LEAD_L
Reactive energy fraction, low tariff, outgoing, LAG
Reactive energy fraction, low tariff, outgoing, LEAD
kvarh/(10×232)
kvarh/(10×232)
243
L-TIMER_L
Energy fraction count time, low tariff
seconds/1 000
245
247
L-EQ+P_L
L-EQ–P_L
Reactive energy fraction, low tariff, incoming
Reactive energy fraction, low tariff, outgoing
kvarh/(10×232)
kvarh/(10×232)
249
L-EPA_L
Active energy fraction, low tariff, (incoming – outgoing)
kWh/(10×232)
251
L-EQA_L
Reactive energy fraction, low tariff, (incoming + outgoing)
kvarh/(10×232)
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EM-6489-B Rev.4
P. 26 / 51
54UC
■ AVERAGE VALUE
RGTR.
ID
PARAMETER
UNIT
257
I AVG
Current AVG
mA
259
261
263
I1 AVG
I2 AVG
I3 AVG
Current AVG, Line 1
Current AVG, Line 2
Current AVG, Line 3
mA
mA
mA
265
IN AVG
Neutral current AVG 3P4W 3.00
mA
273
I AVG 1
Current AVG, History 1
mA
275
277
279
I1 AVG 1
I2 AVG 1
I3 AVG 1
Current AVG, Line 1, History 1
Current AVG, Line 2, History 1
Current AVG, Line 3, History 1
mA
mA
mA
281
IN AVG 1
Neutral current AVG, History 1 3P4W 3.00
mA
289
I AVG 2
Current AVG, History 2
mA
291
293
295
I1 AVG 2
I2 AVG 2
I3 AVG 2
Current AVG, Line 1, History 2
Current AVG, Line 2, History 2
Current AVG, Line 3, History 2
mA
mA
mA
297
IN AVG 2
Neutral current AVG, History 2 3P4W 3.00
mA
305
I AVG 3
Current AVG, History 3
mA
307
309
311
I1 AVG 3
I2 AVG 3
I3 AVG 3
Current AVG, Line 1, History 3
Current AVG, Line 2, History 3
Current AVG, Line 3, History 3
mA
mA
mA
313
IN AVG 3
Neutral current AVG, History 3 3P4W 3.00
mA
321
I AVG 4
Current AVG, History 4
mA
323
325
327
I1 AVG 4
I2 AVG 4
I3 AVG 4
Current AVG, Line 1, History 4
Current AVG, Line 2, History 4
Current AVG, Line 3, History 4
mA
mA
mA
329
IN AVG 4
Neutral current AVG, History 4 3P4W 3.00
mA
513
515
517
P AVG
Q AVG
S AVG
Active power AVG
Reactive power AVG
Apparent power AVG
W
var
VA
529
531
533
P AVG 1
Q AVG 1
S AVG 1
Active power AVG, History 1
Reactive power AVG, History 1
Apparent power AVG, History 1
W
var
VA
545
547
549
P AVG 2
Q AVG 2
S AVG 2
Active power AVG, History 2
Reactive power AVG, History 2
Apparent power AVG, History 2
W
var
VA
561
563
565
P AVG 3
Q AVG 3
S AVG 3
Active power AVG, History 3
Reactive power AVG, History 3
Apparent power AVG, History 3
W
var
VA
577
579
581
P AVG 4
Q AVG 4
S AVG 4
Active power AVG, History 4
Reactive power AVG, History 4
Apparent power AVG, History 4
W
var
VA
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EM-6489-B Rev.4
P. 27 / 51
54UC
■ MAXIMUM / MINIMUM VALUE
RGTR.
769
771
773
775
777
779
781
801
803
805
807
809
811
813
815
817
819
821
823
825
827
829
831
833
835
837
839
841
843
865
867
869
871
873
875
877
879
881
883
897
899
901
903
905
907
909
911
913
915
929
931
933
935
937
939
941
961
963
965
967
969
971
973
ID
I MAX
U MAX
P MAX
Q MAX
S MAX
PF MAX
F MAX
I1 MAX
I2 MAX
I3 MAX
IN MAX
U12 MAX
U23 MAX
U31 MAX
U1N MAX
U2N MAX
U3N MAX
P1 MAX
P2 MAX
P3 MAX
Q1 MAX
Q2 MAX
Q3 MAX
S1 MAX
S2 MAX
S3 MAX
PF1 MAX
PF2 MAX
PF3 MAX
THD I1 MAX
THD I2 MAX
THD I3 MAX
THD IN MAX
THD U12 MAX
THD U23 MAX
THD U31 MAX
THD U1N MAX
THD U2N MAX
THD U3N MAX
I MAX AVG
I1 MAX AVG
I2 MAX AVG
I3 MAX AVG
IN MAX AVG
P MAX AVG+
P MAX AVG–
Q MAX AVG+
Q MAX AVG–
S MAX AVG
I MIN
U MIN
P MIN
Q MIN
S MIN
PF MIN
F MIN
I1 MIN
I2 MIN
I3 MIN
IN MIN
U12 MIN
U23 MIN
U31 MIN
PARAMETER
Current MAX
Voltage MAX
Active power MAX
Reactive power MAX
Apparent power MAX
Power factor MAX
Frequency MAX
Current MAX, Line 1
Current MAX, Line 2
Current MAX, Line 3
Neutral current MAX 3P4W 3.00
Delta voltage MAX, 1 – 2
Delta voltage MAX, 2 – 3
Delta voltage MAX, 3 – 1
Phase voltage MAX, Phase 1
Phase voltage MAX, Phase 2
Phase voltage MAX, Phase 3
Active power MAX, Phase 1
Active power MAX, Phase 2
Active power MAX, Phase 3
Reactive power MAX, Phase 1
Reactive power MAX, Phase 2
Reactive power MAX, Phase 3
Apparent power MAX, Phase 1
Apparent power MAX, Phase 2
Apparent power MAX, Phase 3
Power factor MAX, Phase 1
Power factor MAX, Phase 2
Power factor MAX, Phase 3
Current total harmonic distortion MAX, Line 1
Current total harmonic distortion MAX, Line 2
Current total harmonic distortion MAX, Line 3
Neutral current total harmonic distortion MAX 3P4W 3.00
Delta voltage total harmonic distortion MAX, 1 – 2
Delta voltage total harmonic distortion MAX, 2 – 3
Delta voltage total harmonic distortion MAX, 3 – 1
Phase voltage total harmonic distortion MAX, Phase 1
Phase voltage total harmonic distortion MAX, Phase 2
Phase voltage total harmonic distortion MAX, Phase 3
Current MAX AVG
Current MAX AVG, Line 1
Current MAX AVG, Line 2
Current MAX AVG, Line 3
Neutral current MAX AVG 3P4W 3.00
Active power MAX AVG, incoming
Active power MAX AVG, outgoing
Reactive power MAX AVG, incoming
Reactive power MAX AVG, outgoing
Apparent power MAX AVG
Current MIN
Voltage MIN
Active power MIN
Reactive power MIN
Apparent power MIN
Power factor MIN
Frequency MIN
Current MIN, Line 1
Current MIN, Line 2
Current MIN, Line 3
Neutral current MIN 3P4W 3.00
Delta voltage MIN, 1 – 2
Delta voltage MIN, 2 – 3
Delta voltage MIN, 3 – 1
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
UNIT
mA
V/100
W
var
VA
%/100
Hz/100
mA
mA
mA
mA
V/100
V/100
V/100
V/100
V/100
V/100
W
W
W
var
var
var
VA
VA
VA
%/100
%/100
%/100
%/10
%/10
%/10
%/10
%/10
%/10
%/10
%/10
%/10
%/10
mA
mA
mA
mA
mA
W
W
var
var
VA
mA
V/100
W
var
VA
%/100
Hz/100
mA
mA
mA
mA
V/100
V/100
V/100
EM-6489-B Rev.4
P. 28 / 51
54UC
RGTR.
ID
PARAMETER
UNIT
975
977
979
U1N MIN
U2N MIN
U3N MIN
Phase voltage MIN, Phase 1
Phase voltage MIN, Phase 2
Phase voltage MIN, Phase 3
V/100
V/100
V/100
981
983
985
P1 MIN
P2 MIN
P3 MIN
Active power MIN, Phase 1
Active power MIN, Phase 2
Active power MIN, Phase 3
W
W
W
987
989
991
Q1 MIN
Q2 MIN
Q3 MIN
Reactive power MIN, Phase 1
Reactive power MIN, Phase 2
Reactive power MIN, Phase 3
var
var
var
993
995
997
S1 MIN
S2 MIN
S3 MIN
Apparent power MIN, Phase 1
Apparent power MIN, Phase 2
Apparent power MIN, Phase 3
VA
VA
VA
999
1001
1003
PF1 MIN
PF2 MIN
PF3 MIN
Power factor MIN, Phase 1
Power factor MIN, Phase 2
Power factor MIN, Phase 3
%/100
%/100
%/100
■ TOTAL HARMONIC DISTORTION (THD)
RGTR.
ID
PARAMETER
UNIT
1281
1283
1285
THD I1
THD I2
THD I3
Current total harmonic distortion, Line 1
Current total harmonic distortion, Line 2
Current total harmonic distortion, Line 3
%/10
%/10
%/10
1287
THD IN
Neutral current total harmonic distortion 3P4W 3.00
%/10
1289
1291
1293
THD U12
THD U23
THD U31
Delta voltage total harmonic distortion, 1 – 2
Delta voltage total harmonic distortion, 2 – 3
Delta voltage total harmonic distortion, 3 – 1
%/10
%/10
%/10
1295
1297
1299
THD U1N
THD U2N
THD U3N
Phase voltage total harmonic distortion, Phase 1
Phase voltage total harmonic distortion, Phase 2
Phase voltage total harmonic distortion, Phase 3
%/10
%/10
%/10
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EM-6489-B Rev.4
P. 29 / 51
54UC
■ HARMONIC
RGTR.
ID
PARAMETER
UNIT
1537
1538
1539
1540
1541
1542
1543
1544
1545
1546
1547
1548
1549
1550
1551
1552
1553
1554
1555
1556
1557
1558
1559
1560
1561
1562
1563
1564
1565
1566
HDI1 2
HDI1 3
HDI1 4
HDI1 5
HDI1 6
HDI1 7
HDI1 8
HDI1 9
HDI1 10
HDI1 11
HDI1 12
HDI1 13
HDI1 14
HDI1 15
HDI1 16
HDI1 17
HDI1 18
HDI1 19
HDI1 20
HDI1 21
HDI1 22
HDI1 23
HDI1 24
HDI1 25
HDI1 26
HDI1 27
HDI1 28
HDI1 29
HDI1 30
HDI1 31
Current harmonic, Line 1, 2nd
(id.)
3rd
(id.)
4th
(id.)
5th
(id.)
6th
(id.)
7th
(id.)
8th
(id.)
9th
(id.)
10th
(id.)
11th
(id.)
12th
(id.)
13th
(id.)
14th
(id.)
15th
(id.)
16th
(id.)
17th
(id.)
18th
(id.)
19th
(id.)
20th
(id.)
21st
(id.)
22nd
(id.)
23rd
(id.)
24th
(id.)
25th
(id.)
26th
(id.)
27th
(id.)
28th
(id.)
29th
(id.)
30th
(id.)
31st
%/10
%/10
%/10
%/10
%/10
%/10
%/10
%/10
%/10
%/10
%/10
%/10
%/10
%/10
%/10
%/10
%/10
%/10
%/10
%/10
%/10
%/10
%/10
%/10
%/10
%/10
%/10
%/10
%/10
%/10
1601
:
1630
HDI2 2
:
HDI2 31
Current harmonic, Line 2, 2nd
:
31st
%/10
1665
:
1694
HDI3 2
:
HDI3 31
Current harmonic, Line 3, 2nd
:
31st
%/10
1729
:
1758
HDIN 2
:
HDIN 31
Neutral current harmonic, 2nd 3P4W 3.00
:
31st
%/10
1793
:
1822
HDU12 2
:
HDU12 31
Delta voltage harmonic, 1 – 2, 2nd
:
31st
%/10
1857
:
1886
HDU23 2
:
HDU23 31
Delta voltage harmonic, 2 – 3, 2nd
:
31st
%/10
1921
:
1950
HDU31 2
:
HDU31 31
Delta voltage harmonic, 3 – 1, 2nd
:
31st
%/10
1985
:
2014
HDU1N 2
:
HDU1N 31
Phase voltage harmonic, Phase 1, 2nd
:
31st
%/10
2049
:
2078
HDU2N 2
:
HDU2N 31
Phase voltage harmonic, Phase 2, 2nd
:
31st
%/10
2113
:
2142
HDU3N 2
:
HDU3N 31
Phase voltage harmonic, Phase 3, 2nd
:
31st
%/10
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EM-6489-B Rev.4
P. 30 / 51
54UC
■ DISCRETE I/O DO DI
RGTR.
PARAMETER
3073
Discrete input status
3105
Discrete output 1
The discrete output status can be changed by writing at this address from the host if no function is assigned.
3106
Discrete output 2
The discrete output status can be changed by writing at this address from the host if no function is assigned.
■ ERROR, ALARM
RGTR.
8001
PARAMETER
Overload input
Bit assignment as shown below.
Bit
15
14
13
12
11
F
10
9
8
7
U31 U23 U12
6
5
4
3
U3N U2N U1N
2
1
0
I3
I2
I1
2
1
0
‘1’ is placed when the respective inputs are overload.
8002
Number of alarm trips
Shows number of alarms presently triggered.
8003
System error
Bit assignment as shown below.
Bit
15
14
13
12
11
10
9
8
7
6
5
4
3
STAT AVG ENE SET FDT PRG
PRG: Control software error
FDT: Factory calibration data error
SET: User setting data error
ENE: Energy data error
AVG: Average data error
STAT: Maximum / minimum data error
‘1’ is placed when the respective errors are detected. All measuring operations stop while one or more system
errors are detected.
8004
Reserved
8005
I1 thr. I3 - Current : Alarm
Bit assignment as shown below.
Bit
15
14
13
12
11
10
9
8
7
6
5
4
I3
HI
I2
HI
I1
HI
3
2
1
0
I3
LO
I2
LO
I1
LO
‘1’ is placed when the respective values are out of the predetermined ranges. ‘0’ in all bits means that no
alarm is tripped.
8006
IN - Neutral current : Alarm 3P4W 3.00
Bit assignment as shown below.
Bit
15
14
13
12
11
10
9
8
7
6
5
4
IN
HI
3
2
1
0
IN
LO
‘1’ is placed when the value is out of the predetermined range. ‘0’ in all bits means that no alarm is tripped.
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EM-6489-B Rev.4
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54UC
RGTR.
8007
PARAMETER
U12 thr. U31 - Delta voltage : Alarm
Bit assignment as shown below
Bit
15
14
13
12
11
10
9
8
7
6
5
4
3
U31 U23 U12
HI
HI
HI
2
1
0
U31 U23 U12
LO LO LO
‘1’ is placed when the respective values are out of the predetermined ranges. ‘0’ in all bits means that no
alarm is tripped.
8008
U1N thr. U3N - Phase voltage : Alarm
Bit assignment as shown below.
Bit
15
14
13
12
11
10
9
8
7
6
5
4
3
U3N U2N U1N
HI
HI
HI
2
1
0
U3N U2N U1N
LO LO LO
‘1’ is placed when the respective values are out of the predetermined ranges. ‘0’ in all bits means that no
alarm is tripped.
8009
P - Active power : Alarm
Bit assignment as shown below.
Bit
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
P
HI
0
P
LO
‘1’ is placed when the value is out of the predetermined range. ‘0’ in all bits means that no alarm is tripped.
8010
Q - Reactive power : Alarm
Bit assignment as shown below.
Bit
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
Q
HI
0
Q
LO
‘1’ is placed when the value is out of the predetermined range. ‘0’ in all bits means that no alarm is tripped.
8011
S - Apparent power : Alarm
Bit assignment as shown below.
Bit
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
S
HI
0
S
LO
‘1’ is placed when the value is out of the predetermined range. ‘0’ in all bits means that no alarm is tripped.
8012
PF - Power factor : Alarm
Bit assignment as shown below.
Bit
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
PF
HI
0
PF
LO
‘1’ is placed when the value is out of the predetermined range. ‘0’ in all bits means that no alarm is tripped.
8013
F - Frequency : Alarm
Bit assignment as shown below.
Bit
15
14
13
12
11
10
9
8
7
6
5
4
F
HI
3
2
1
0
F
LO
‘1’ is placed when the value is out of the predetermined range. ‘0’ in all bits means that no alarm is tripped.
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
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RGTR.
8014
PARAMETER
I1 AVG thr. I3 AVG - Average (demand) current : Alarm
Bit assignment as shown below.
Bit
15
14
13
12
11
10
9
8
7
6
5
4
I3
I2
I1
AVG AVG AVG
HI
HI
HI
3
2
1
0
I3
I2
I1
AVG AVG AVG
LO LO LO
‘1’ is placed when the respective values are out of the predetermined ranges. ‘0’ in all bits means that no
alarm is tripped.
8015
IN AVG - Average (demand) neutral current : Alarm 3P4W 3.00
Bit assignment as shown below.
Bit
15
14
13
12
11
10
9
8
7
6
5
4
IN
AVG
HI
3
2
1
0
IN
AVG
LO
‘1’ is placed when the value is out of the predetermined range. ‘0’ in all bits means that no alarm is tripped.
8016
P AVG - Average (demand) active power : Alarm
Bit assignment as shown below.
Bit
15
14
13
12
11
10
9
8
7
6
5
4
P
AVG
HI
3
2
1
0
P
AVG
LO
‘1’ is placed when the value is out of the predetermined range. ‘0’ in all bits means that no alarm is tripped.
8017
Q AVG - Average (demand) reactive power : Alarm
Bit assignment as shown below
Bit
15
14
13
12
11
10
9
8
7
6
5
4
Q
AVG
HI
3
2
1
0
Q
AVG
LO
‘1’ is placed when the value is out of the predetermined range. ‘0’ in all bits means that no alarm is tripped.
8018
S AVG - Average (demand) apparent power : Alarm
Bit assignment as shown below.
Bit
15
14
13
12
11
10
9
8
7
6
5
4
S
AVG
HI
3
2
1
0
S
AVG
LO
‘1’ is placed when the value is out of the predetermined range. ‘0’ in all bits means that no alarm is tripped.
8019
THD I1 thr. THD I3 - Current total harmonic distortion : Alarm
Bit assignment as shown below.
Bit
15
14
13
12
11
10
9
8
7
6
5
4
THD THD THD
I3
I2
I1
HI
HI
HI
3
2
1
0
THD THD THD
I3
I2
I1
LO LO LO
‘1’ is placed when the respective values are out of the predetermined ranges. ‘0’ in all bits means that no
alarm is tripped.
8020
THD IN - Neutral current total harmonic distortion : Alarm 3P4W 3.00
Bit assignment as shown below
Bit
15
14
13
12
11
10
9
8
7
6
5
4
THD
IN
HI
3
2
1
0
THD
IN
LO
‘1’ is placed when the value is out of the predetermined range. ‘0’ in all bits means that no alarm is tripped.
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
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RGTR.
8021
PARAMETER
THD U12 thr. THD U31 - Delta voltage total harmonic distortion : Alarm
Bit assignment as shown below.
Bit
15
14
13
12
11
10
9
8
7
6
5
4
THD THD THD
U31 U23 U12
HI
HI
HI
3
2
1
0
THD THD THD
U31 U23 U12
LO LO LO
‘1’ is placed when the respective values are out of the predetermined ranges. ‘0’ in all bits means that no
alarm is tripped.
8022
THD U1N thr. THD U3N - Phase voltage total harmonic distortion : Alarm
Bit assignment as shown below.
Bit
15
14
13
12
11
10
9
8
7
6
5
4
THD THD THD
U3N U2N U1N
HI
HI
HI
3
2
1
0
THD THD THD
U3N U2N U1N
LO LO LO
‘1’ is placed when the respective values are out of the predetermined ranges. ‘0’ in all bits means that no
alarm is tripped.
8023
UT12 thr. UT31 - Phase angle between phase voltages : Alarm
Bit assignment as shown below.
Bit
15
14
13
12
11
10
9
8
7
6
5
4
UT31 UT23 UT12
HI
HI
HI
3
2
1
0
UT31 UT23 UT12
LO LO LO
‘1’ is placed when the respective values are out of the predetermined ranges. ‘0’ in all bits means that no
alarm is tripped.
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
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■ ALARM HISTORY
Latest alarm data is updated whenever a new alarm is tripped, and the second latest one is shifted to ‘History 1,’ the third
one to ‘History 2,’ and so forth.
RGTR.
PARAMETER
8129
Latest alarm trip, parameter number
0 : I1 thr. I3 - Current
1 : IN - Neutral current 3P4W 3.00
2 : U12 thr. U31 - Delta voltage
3 : U1N thr. U3N - Phase voltage
4 : P - Active power
5 : Q - Reactive power
6 : S - Apparent power
7 : PF - Power factor
8 : F - Frequency
9 : I1 AVG thr. I3 AVG - Average (demand) current
10 : IN AVG - Average (demand) neutral current 3P4W 3.00
11 : P AVG - Average (demand) active power
12 : Q AVG - Average (demand) reactive power
13 : S AVG - Average (demand) apparent power
14 : THD I1 thr. THD I3 - Current total harmonic distortion
15 : THD IN - Neutral current total harmonic distortion 3P4W 3.00
16 : THD U12 thr. THD U31 - Delta voltage total harmonic distortion
17 : THD U1N thr. THD U3N - Phase voltage total harmonic distortion
18 : UT12 thr. UT31 - Phase angle between phase voltages total har monic distortion
8130
Latest alarm trip, parameter point
Shows which point triggered the latest alarm. Bit assignments are identical to those for ‘Alarm,’ register
address starting from 8005. For example, ‘0’ at ‘parameter number’ (8128) and ‘1’ at Bit 0 of this register address means that I1 value is lower than the low setpoint, triggering the alarm.
If another point within the same parameter number goes into alarm after one (e.g. if I2 value goes above the
high setpoint while I1 thr. I3 alarm is triggered), the second trip is not recorded in the history.
8131
Latest alarm trip, value
Shows the data value at the moment of alarm.
8133
8134
8135
Alarm trip, parameter number, History 1
Alarm trip, parameter point, History 1
Alarm trip, value, History 1
8137
8138
8139
Alarm trip, parameter number, History 2
Alarm trip, parameter point, History 2
Alarm trip, value, History 2
8141
8142
8143
Alarm trip, parameter number, History 3
Alarm trip, parameter point, History 3
Alarm trip, value, History 3
8145
8146
8147
Alarm trip, parameter number, History 4
Alarm trip, parameter point, History 4
Alarm trip, value, History 4
8149
8150
8151
Alarm trip, parameter number, History 5
Alarm trip, parameter point, History 5
Alarm trip, value, History 5
8153
8154
8155
Alarm trip, parameter number, History 6
Alarm trip, parameter point, History 6
Alarm trip, value, History 6
8157
8158
8159
Alarm trip, parameter number, History 7
Alarm trip, parameter point, History 7
Alarm trip, value, History 7
8161
8162
8163
Alarm trip, parameter number, History 8
Alarm trip, parameter point, History 8
Alarm trip, value, History 8
8165
8166
8167
Alarm trip, parameter number, History 9
Alarm trip, parameter point, History 9
Alarm trip, value, History 9
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EM-6489-B Rev.4
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54UC
■ DIAGNOSTICS
RGTR.
PARAMETER
UNIT
9217
Processing delays
times
9219
Processing delay sequence number
No.
■ DEVICE INFORMATION
RGTR.
PARAMETER
9601
Device ID
5401 : 54UC
9602
Device Version No.
Version No. = (No. × 100). e.g. Version 1.00 = 100
9603
Serial No.
9603
9604
9605
9606
Upper digit: 2nd character
Upper digit: 4th character
Upper digit: 6th character
Upper digit: 8th character
Lower digit: 1st character
Lower digit: 3rd character
Lower digit: 5th character
Lower digit: 7th character
9607
Tag No.
9607
9608
9609
9610
9611
9612
9613
9614
Upper digit: 2nd character
Upper digit: 4th character
Upper digit: 6th character
Upper digit: 8th character
Upper digit: 10th character
Upper digit: 12th character
Upper digit: 14th character
Upper digit: 16th character
Lower digit: 1st character
Lower digit: 3rd character
Lower digit: 5th character
Lower digit: 7th character
Lower digit: 9th character
Lower digit: 11th character
Lower digit: 13th character
Lower digit: 15th character
This register can be written in.
9623
Extension function
An addition of the following numbers are read out to identify the external interface type.
0008 : Discrete output 110V DC
0010 : 3-phase / 4-wire
0100 : CC-Link
9624
Numbers of Di
0 : None
1 : 1 point
9625
Numbers of Do
0 : None
1 thr. 2 : 1 thr. 2 points
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EM-6489-B Rev.4
P. 36 / 51
54UC
OPERATION FLOWCHART
■ DISPLAY
(1) SYMBOL
(2) MEASURANDS
(3) UNIT
VIEW NO.
(1)
(2)
(4) LINE 1
(4)
(5)
(6)
(7)
(5) LINE 2
(6) LINE 3
∑
0
Current
Activer power
Power factor
∑1
A
W
PF
(7) LINE 4
(3)
■ HOW TO SWITCH THE DISPLAY VIEWS
∑
IU
PQS
PF THD
Pressing one of
buttons switches the view to the one of top among those assigned to
the respective button. Pressing the same button continuously switches it to more selections in turn.
∑
IU
∑1
∑
A
var
V
kWh
RS 1-2 Delta voltage
V
ST 2-3 Delta voltage
V
RT 3-1 Delta voltage
V
Selected energy reading*
48
Current
Apparent power
Frequency
High tariff
A
VA
Hz
kWh
U
304
R 1-N Phase voltage
V
S 2-N Phase voltage
V
T 3-N Phase voltage
V
Selected energy reading*
32
64
∑5
∑
Active power
Line 1 Current
Line 2 Current
Line 3 Current
272
R Phase 1 Reactive power var
S Phase 2 Reactive power var
T Phase 3 Reactive power var
Selected energy reading*
U
S
288
768
R Phase 1 Power factor cos ϕ
S Phase 2 Power factor cos ϕ
T Phase 3 Power factor cos ϕ
Selected energy reading*
528
3P4W 3.00
--N Neutral current
A
--Selected energy reading*
UT
W
A
A
A
THDI
784
R Line 1 Current THD
%
S Line 2 Current THD
%
T Line 3 Current THD
%
Selected energy reading*
544
THDI
800
--3P4W 3.00
%
N Neutral current THD
--Selected energy reading*
R Phase 1 Apparent power VA
S Phase 2 Apparent power VA
T Phase 3 Apparent power VA
Selected energy reading*
THDU
816
RS 1-2 Delta voltage THD %
ST 2-3 Delta voltage THD %
RT 3-1 Delta voltage THD %
Selected energy reading*
320
THDU
RS 1-2 Phase angle
ST 2-3 Phase angle
RT 3-1 Phase angle
Selected energy reading*
832
R 1-N Phase voltage THD %
S 2-N Phase voltage THD %
T 3-N Phase voltage THD %
Selected energy reading*
80
∑6
∑
Q
Current
Reactive power
Voltage
High tariff
∑4
∑
I
A
W
V
kWh
PF
512
R Phase 1 Active power W
S Phase 2 Active power W
T Phase 3 Active power W
Selected energy reading*
Current
Active power
Voltage
High tariff
16
P
256
PF THD
A
R Line 1 Current
A
S Line 2 Current
A
T Line 3 Current
Selected energy reading*
A
W
cos ϕ
kWh
∑3
∑
I
0
Current
Active power
Power factor
High tariff
∑2
∑
PQS
Active power
1-2 Delta Voltage
2-3 Delta Voltage
3-1 Delta Voltage
W
V
V
V
∑1 thr. ∑6 views in the above figure shows the factory setting. These combinations can be changed.
MAX
button switches the presently displayed view to its extension views if any.
Pressing the same button continuously switches it to more selections in turn.
Basic and extension views are all listed in the table in the following page.
[Example] Pressing
MAX
button on the view No. 768 (power factor) switches it to extension views as below.
MAX
PF
768
R Phase 1 Power factor cos ϕ
S Phase 2 Power factor cos ϕ
T Phase 3 Power factor cos ϕ
Selected energy reading*
*Selected with
E PRG ESC
P-MAX
769
R Phase 1 Power factor MAX cos ϕ
S Phase 2 Power factor MAX cos ϕ
T Phase 3 Power factor MAX cos ϕ
P-MIN
770
R Phase 1 Power factor MIN cos ϕ
S Phase 2 Power factor MIN cos ϕ
T Phase 3 Power factor MIN cos ϕ
button.
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EM-6489-B Rev.4
P. 37 / 51
54UC
Basic and extension view parameters
EXTENSION
∑ view
PRMTR
BASIC PARAMETER
0
Not assigned
1
Current
MAX
MIN
AVE
HIST1
AVE
HIST2
AVE
HIST3
AVE
HIST4
AVE
MAX AVE
(out)
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
2
Voltage
X
X
X
3
Active power
X
X
X
4
Reactive power
X
X
X
X
X
X
X
X
5
Apparent power
X
X
X
X
X
X
X
X
6
Power factor
X
X
7
Frequency
X
X
8
Current, Line 1
X
X
X
X
X
X
X
X
9
Current, Line 2
X
X
X
X
X
X
X
X
10
Current, Line 3
X
X
X
X
X
X
X
X
11
Neutral current 3P4W 3.00
X
X
X
X
X
X
X
X
12
Delta voltage, 1 - 2
X
X
13
Delta voltage, 2 - 3
X
X
14
Delta voltage, 3 - 1
X
X
15
Phase voltage, Phase 1
X
X
16
Phase voltage, Phase 2
X
X
17
Phase voltage, Phase 3
X
X
18
Active power, Phase 1
X
X
19
Active power, Phase 2
X
X
20
Active power, Phase 3
X
X
21
Reactive power, Phase 1
X
X
22
Reactive power, Phase 2
X
X
23
Reactive power, Phase 3
X
X
24
Apparent power, Phase 1
X
X
25
Apparent power, Phase 2
X
X
26
Apparent power, Phase 3
X
X
27
Power factor, Phase 1
X
X
28
Power factor, Phase 2
X
X
X
29
Power factor, Phase 3
X
30
THD, Current, Line 1
X
31
THD, Current, Line 2
X
32
THD, Current, Line 3
X
33
THD, Neutral current 3P4W 3.00
X
34
THD, Delta voltage, 1 - 2
X
35
THD, Delta voltage, 2 - 3
X
36
THD, Delta voltage, 3 - 1
X
37
THD, Phase voltage, Phase 1
X
38
THD, Phase voltage, Phase 2
X
39
THD, Phase voltage, Phase 3
X
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EM-6489-B Rev.4
MAX
AVE
P. 38 / 51
54UC
∑ view
PRMTR
BASIC PARAMETER
40
Phase angle between phase voltages, 1 - 2
41
Phase angle between phase voltages, 2 - 3
42
Phase angle between phase voltages, 3 - 1
100
Active energy, high tariff, incoming
101
Reactive energy, high tariff, LAG
102
Apparent energy, high tariff
103
Active energy, high tariff, outgoing
104
Reactive energy, high tariff, LEAD
105
Reactive energy, high tariff, incoming/LAG
106
Reactive energy, high tariff, incoming/LEAD
107
Reactive energy, high tariff, outgoing/LAG
108
Reactive energy, high tariff, outgoing/LEAD
109
Energy count time, high tariff
110
Active energy, low tariff, incoming
111
Reactive energy, low tariff, LAG
112
Apparent energy, low tariff
113
Active energy, low tariff, outgoing
114
Reactive energy, low tariff, LEAD
115
Reactive energy, low tariff, incoming/LAG
116
Reactive energy, low tariff, incoming/LEAD
117
Reactive energy, low tariff, outgoing/LAG
118
Reactive energy, low tariff, outgoing/LEAD
119
Energy count time, low tariff
210
Reactive energy, high tariff, incoming
211
Reactive energy, high tariff, outgoing
212
Active energy, high tariff, incoming - outgoing
213
Reactive energy, high tariff, incoming + outgoing
310
Reactive energy, low tariff, incoming
311
Reactive energy, low tariff, outgoing
312
Active energy, low tariff, incoming - outgoing
313
Reactive energy, low tariff, incoming + outgoing
Note. The parameters 100 through 313 are available only on the line 4. These parameters have no extension.
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EM-6489-B Rev.4
P. 39 / 51
54UC
■ HARMONIC
IU
+ PF THD
∑
IU
Hold down both buttons for 1 second or more to switch from various setting mode to the harmonics.
PQS
Press triangle buttons to switch the views.
PF THD
1040
1024
Line 1 Current 2nd HD %
Line 1 Current 3rd HD
Line 1 Current 4th HD
I1 02-04
Line 2 Current 2nd HD %
Line 2 Current 3rd HD
Line 2 Current 4th HD
I2 02-04
1025
Line 1 Current 5th HD %
Line 1 Current 6th HD
Line 1 Current 7th HD
I1 05-07
3-N Phase voltage 5th HD %
3-N Phase voltage 6th HD
3-N Phsae voltage 7th HD
U3N 05-07
I3 through U2N*1
· · · · ·
3-N Phase voltage 8th HD %
3-N Phase voltage 9th HD
3-N Phsae voltage 10th HD
U3N 08-10
1169
1170
·
·
· 11 through 28
·
·
1033
*1. I3
IN
U12
U23
U31
U1N
U2N
I3 through U2N*1
· · · · ·
1042
Line 2 Current 8th HD %
Line 2 Current 9th HD
Line 2 Current 10th HD
I2 08-10
·
·
· 11 through 28
·
·
Line 1 Current 29th HD %
Line 1 Current 30th HD
Line 1 Current 31st HD
I1 29-31
3-N Phase voltage 2nd HD %
3-N Phase voltage 3rd HD
3-N Phsae voltage 4th HD
U3N 02-04
1041
Line 2 Current 5th HD %
Line 2 Current 6th HD
Line 2 Current 7th HD
I2 05-07
1026
Line 1 Current 8th HD %
Line 1 Current 9th HD
Line 1 Current 10th HD
I1 08-10
1168
I3 through U2N*1
· · · · ·
·
·
· 11 through 28
·
·
1049
Line 2 Current 29th HD %
Line 2 Current 30th HD
Line 2 Current 31st HD
I2 29-31
1177
3-N Phase voltage 29th HD %
3-N Phase voltage 30th HD
3-N Phsae voltage 31st HD
U3N 29-31
I3 through U2N*1
· · · · ·
: Line 3 Current HD
: Neutral current HD 3P4W 3.00
: 1-2 Delta voltage HD
: 2-3 Delta voltage HD
: 3-1 Delta voltage HD
: 1-N Phase voltage HD
: 2-N Phase voltage HD
■ SHORTCUT MENU
Hold down PQS
button until the 4th line is switched to the shortcut menu.
Resetting alarm trip and other operations are swiftly executed using this menu.
Press
PQS
Press MAX
button one or more times to scroll the menu.
button to execute a menu command.
Press any other button to exit the shortcut menu.
PQS
RESET CC
Reset CC-Link
CLR ALARM
Reset alarm trip (unlatching)
MYDEFAULT
Show My Default view
∑
Hold down
COM-MODE
Go to COM mode
IU
Hold down
(alternate)
CONFIG
Go to PC configuration mode
E PRG ESC
Hold down
HARMONIC/MEASURAND
Show HD by degrees
IU
+ PF THD
ENE UNIT
Switch the energy unit
∑
+
E PRG ESC
Hold down
Hold down
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
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54UC
■ HOW TO SWITCH THE DISPLAY FOR LINE 4
∑
+
E PRG ESC
Hold down both buttons for 1 second or more to switch the watt-hour unit with or without ‘k.’
E PRG ESC
0
10
+ EP / Active energy (incoming)
Wh
+ EQ / Reactive energy (lag)
varh
+ ES / Apparent energy
VAh
–
EP– / Active energy (outgoing)
Wh
–
EQ– / Reactive energy (lead)
varh
+ L-EP / Active energy (incoming)
Wh
+ L-EQ / Reactive energy (lag)
varh
+ L-ES / Apparent energy
VAh
–
L-EP– / Active energy (outgoing)
Wh
–
L-EQ– / Reactive energy (lead)
varh
1
11
2
12
3
13
4
14
5
15
+ EQ+LAG / Reactive energy (incoming/lag)
varh
+ EQ+LEAD / Reactive energy (incoming/lead)
varh
+ L-EQ+LAG / Reactive energy (incoming/lag)
varh
+ L-EQ+LEAD / Reactive energy (incoming/lead)
varh
6
16
Tariff function
Disabled
7
–
EQ–LAG / Reactive energy (outgoing/lag)
varh
–
EQ–LEAD / Reactive energy (outgoing/lead)
varh
E PRG ESCAPE
17
–
L-EQ–LAG / Reactive energy (outgoing/lag)
varh
–
L-EQ–LEAD / Reactive energy (outgoing/lead)
varh
8
18
210
+ EQ+P / Reactive energy (incoming)
310
+ L-EQ+P / Reactive energy (incoming)
varh
varh
211
311
–
EQ–P / Reactive energy (outgoing)
varh
±
EPA / Active energy (incoming – outgoing)
–
EQA / Reactive energy (incoming + outgoing)
varh
TIMER / Energy count time
h
–
L-EQ–P / Reactive energy (outgoing)
varh
±
L-EPA / Active energy (incoming – outgoing)
–
L-EQA / Reactive energy (incoming + outgoing)
varh
L-TIMER / Energy count time
h
212
312
Wh
213
Wh
313
9
19
Tariff function
Enabled
OL or ERR reading flashes in case of errors. Refer to “ERROR MESSAGES” section for detailed information.
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
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■ PROGRAMMING FLOWCHART
PF THD
MAX
PQS
: Move between menu items
: Select
E PRG ESC
: Go up one level in the chart
Enter Passcode
0000 thr. 9999 (0000)
Device information
(DEV.INFO)
Model No. 54Ux
Firmware version No.
Serial No.
Reset alarm
(CLR ALARM)
NO : Cancel
YES : Reset
Reset count
(RESET)
ENERGY : Total energy
MAX/MIN : Max/Min values
DEMAND : Average
Switch tariff
(TARIFF)
PEAK : High tariff (*)
OFF PEAK : Low tariff
Reboot device
(REBOOT)
NO : Cancel
YES : Reboot
Change Passcode
(PASSCODE)
0000 thr. 9999
Loop test *1
Execute
Change Setting
(SETTINGS)
Input Setting
(INPUT)
E PRG ESC
Hold down ≥2 sec.
Bargraph indication
setting
(BAR)
System configuration
(SYSTEM)
1P2W : Single-phase/2-wire
1P3W : Single-phase/3-wire
3P3W-B : 3-phase/3-wire balanced
3P3W-UB : 3-phase/3-wire unbalanded (*)
3P4W-B : 3-phase/4-wire balanced
3P4W-UB : 3-phase/4-wire unbalanced (*)
CT rating, primary
(CT-PRI)
1 thr. 20 000 A (1 or 5A)
CT rating, secondary
(CT-SEC)
1 thr. 5 A (1 or 5A)
VT rating, primary
(VT-PRI)
50 thr. 400 000 V (110V)
VT rating, secondary
(VT-SEC)
50 thr. 500 V (110V)
AC frequency
(FREQUENCY)
U1: Voltage (*)
I1 : Current
Low-end cutout, current
(CUTOUT-I)
0.0 thr. 99.9% of the rating (1.0%)
Low-end cutout, voltage
(CUTOUT-U)
0.0 thr. 99.9% of the rating (1.0%)
Following parameters
are programmable
I
U
P
Q
S
PF
F
THD
PHASE DIF
Maximum value
(UPPER)
*2
Minimum value
(LOWER)
*2
(*) or ( ) : Factory setting
System configuration factory setting
54UC-1: 3P3W-UB
54UC-2: 3P4W-UB
*1. Simulated output without applying actual input signals.
*2. Refer to “SETTING BARGRAPH INDICATION” in “SETTING EXAMPLE” section.
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
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Change Setting
(SETTINGS)
CC-Link setting *3
(CC-LINK)
Demand Setting
(DEMAND)
Energy Setting
(ENERGY)
Node address
(ADDRESS)
1 thr. 64 (1)
Baud rate
(BAUDRATE)
156 kbps / 625 kbps / 2.5 Mbps /
5 Mbps / 10 Mbps (*)
Average current
(I)
DIN : External discrete input
1 thr. 60 : Minutes (30)
Average power
(POWER)
DIN : External discrete input
1 thr. 60 : Minutes (30)
Pulse output 1
(COUNT1)
*4
Pulse weight 1
(WEIGHT1)
0.1 thr. 10 000.0 :
kWh / kvarh / kVAh (1.0)
Pulse width 1
(DURATION1)
100 thr. 2 000 ms (100 ms increments)
(100)
Tariff switching
(TARIFF)
DISABLE (*)
ENABLE
Pulse output 2
(COUNT2)
*4
Pulse weight 2
(WEIGHT2)
0.1 thr. 10 000.0 :
kWh / kvarh / kVAh (1.0)
Pulse width 2
(DURATION2)
100 thr. 2 000 ms (100 ms increments)
(100)
(*) or ( ) : Factory setting
*3. In order to make the settings effective, turn on the power again, or reboot the device or reset CC-Link by using buttons on the front panel.
*4. Refer to "Energy count type" in "CC-Link - SETTING" section.
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EM-6489-B Rev.4
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54UC
Change Setting
(SETTINGS)
Discrete I/O
Setting (DIO)
DI
Discrete output 1 function
(DO1-FUNC)
NO FUNC : Not used (*)
ENERGY : Energy count pulse
ALARM : Alarm output
Discrete output 1 mode
(DO1-TYPE)
N-O : Normally open (*)
N-C : Normally closed
Discrete input function
(DIN-FUNC)
DI
NO FUNC : Not used (*)
DEMAND : Update demand
RESET E : Reset energy
CLR ALARM : Reset alarm
TARIFF : Switch tariff
Discrete input type
(DIN-TYPE)
DI
N-O : Normally open (*)
N-C : Normally closed
Discrete output 2 function
(DO2-FUNC)
NO FUNC : Not used (*)
ENERGY : Energy count pulse
ALARM : Alarm output
Discrete output 2 mode
(DO2-TYPE)
N-O : Normally open (*)
N-C : Normally closed
(*) or ( ) : Factory setting
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
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Change Setting
(SETTINGS)
Alarm Output Setting
(ALARM)
Display Setting
(DISPLAY)
Power ON delay time
(POWON DLY)
0 thr. 999 seconds (0)
Latching
(LATCHING)
DISABLE (*)
ENABLE
Measurands *5
I1-3
IN 3P4W 3.00
U12-31
U1N-3N
P
Q
S
PF
F
I1-3 AVG
IN AVG 3P4W 3.00
P AVG
Q AVG
S AVG
THDI1-3
THDIN 3P4W 3.00
THDU12-31
THDU1N-3N
UT12-31
High setpoint
(HIGH)
HIGH : *5 (0)
Low setpoint
(LOW)
LOW : *5 (0)
Hysteresis (deadband)
(HYSTERES)
0.0 thr. 99.9% (0.0)
Alarm ON delay time
(ON DELAY)
0 thr. 999 seconds (0)
Alarm output
(OUTPUT)
DISABLE : Disable alarm (*)
DISP ONLY : Display only
DOUT1 : Discrete output 1 + display
DOUT2 : Discrete output 2 + display
Backlight
(BACKLIGHT)
Operating mode
(MODE)
AUTO : ON by operation and at alarm *9
OFF by timer (*)
ON : Continuously ON
OFF : Continuously OFF
Operatint time
(OFF TIMER)
1 thr. 999 seconds (600)
Display brightness
(BRIGHTNESS)
1 : Dark
2 : Normal (*)
3 : Bright
View type memory
(MODE)
CURRENT : Save the view on display
CYCLIC : ∑ view auto cyclic switching
Recover-to-default time
(TIMER)
DISABLE : No auto recovery (*)
1 thr. 999 sec. from last operation
∑1
∑2
∑3
∑4
∑5
∑6
Choose measurands to be displayed on
Line 1 thr. Line 4
My Default View
(DEFAULT)
∑ View
Customization
(CUSTOMIZE)
Reset customization
(RESET)
Shortcut Menu
(SHORTCUT)
NO : Cancel
YES : Reset
Display Update
Rate (UPD RATE)
0 : Fastest (*)
1 thr. 60 seconds
Reset Alarm
(CLR ALARM)
ENABLE
DISABLE
(*) or ( ) : Factory setting
*5. Refer to "ALARM OUTPUT SETTING" in this section.
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EM-6489-B Rev.4
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54UC
Change Setting
(SETTINGS)
Option Setting
(OPTION)
Maintenance Setting
(MAINTE)
Power factor sign
(PF SIGN)
IEC (*)
IEEE
Reactive power sign
(Q SIGN)
IEC (*)
SPECIAL : Outgoing power sign inverted
Reactiver power calcul.
(QN CALC)
VEC S-P : √ Sn2 – Pn2 (*)
SIGMA UI : Reactive power meter method
Apparent power calcul.
(S CALC)
VEC P+Q (*)
S1+S2+S3
Power unit format
(P FORMAT)
9.999K (*)
9999
Backup setting
(BACKUP)
NO : Cancel
YES : Backup
Restore setting
(RESTORE)
NO : Cancel
YES : Read
Initialization
(CLEAR ALL)
NO : Cancel
YES : Initialize
(*) or ( ) : Factory setting
■ ALARM OUTPUT SETTING
ID *1
DEFINITION
I1-3
Current, Line 1 thr. Line 3
IN
Neutral current 3P4W 3.00
U12-31
Delta voltage, Line 1 – 2, 2 – 3, 3 – 1
U1N-3N
Phase voltage, Phase 1 thr. Phase 3
P
Active power
Q
Reactive power
S
Apparent power
PF
Power factor
F Frequency
I1-3 AVG
Average current, Line 1 thr. Line 3 (demand)
IN AVG
Average neutral current (demand) 3P4W 3.00
P AVG
Average active power (demand)
Q AVG
Average reactive power (demand)
S AVG
Average apparent power (demand)
THD I1-3
THD, Current, Line 1 thr. Line 3
THD IN
THD, Neutral current 3P4W 3.00
THD U12-31 THD, Delta voltage, Line 1 – 2, 2 – 3, 3 – 1
THD U1N-3N THD, Phase voltage, Phase 1 thr. Phase 3
UT12-31
Phase angle between voltages, Phase 1 – 2, 2 – 3, 3 – 1
*1. Indicated while in alarm conditions.
LOW SETPOINT
HIGH SETPOINT
UNIT
0.000
20 000.000
A
0
20 000
A
0.00
400 000.00
V
0.00
400 000.00
V
-2 000 000 000
2 000 000 000
W
-2 000 000 000
2 000 000 000
var
0
2 000 000 000
VA
-1.0000
1.0000
---45.00
65.00Hz
0.000
20 000.000
A
0
20 000
A
-2 000 000 000
2 000 000 000
W
-2 000 000 000
2 000 000 000
var
0
2 000 000 000
VA
0.0
999.9
%
0.0
999.9
%
0.0
999.9
%
0.0
999.9
%
-180
180
°
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EM-6489-B Rev.4
P. 46 / 51
54UC
SETTING EXAMPLES
■ SETTING INPUT CONFIGURATION
Input system: Three-phase / 3-wire, unbalanced load
CT ratio: 300A / 5A
VT ratio: 6600V / 110V
Change Setting
(SETTINGS)
Input Setting
(INPUT)
System configuration
(SYSTEM)
3P3W-UB : 3-phase/3-wire unbalanced
CT rating, primary
(CT-PRI)
300A
CT rating, secondary
(CT-SEC)
5A
VT rating, primary
(VT-PRI)
6600V
VT rating, secondary
(VT-SEC)
110V
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EM-6489-B Rev.4
P. 47 / 51
54UC
■ SETTING BARGRAPH INDICATION (Refer to “PROGRAMMING FLOWCHART” in “OPERATION FLOWCHART” section.)
Current range: 0 – 150A
Voltage range: 0 – 9000V
Active power range: 0 – 1.800MW
Reactive power range: 0 – 1.800Mvar
Apparent power range: 0 – 1.800MVA
Power factor range: LEAD 0.5 – 1 – LAG 0.5
Frequency: 55 – 65 Hz
Change Setting
(SETTINGS)
Bargraph Indication
(BAR)
Current range
(I)
Voltage range
(U)
Active power range
(P)
Reactive power range
(Q)
Apparent power range
(S)
Power factor range
(PF)
Frequency
(F)
Harmonic distortion
(THD)
Phase difference
(PHASE DIF)
Maximum value
(UPPER)
150A
(5A)
Minimum value
(LOWER)
0A (*)
Maximum value
(UPPER)
9000V
(300V)
Minimum value
(LOWER)
0V (*)
Maximum value
(UPPER)
1.800MW
(1500W)
Minimum value
(LOWER)
0W (*)
Maximum value
(UPPER)
1.800Mvar
(1500var)
Minimum value
(LOWER)
0var (*)
Maximum value
(UPPER)
1.800MVA
(1500VA)
Minimum value
(LOWER)
0VA (*)
Maximum value
(UPPER)
0.500 cos φ
(1.0 cos φ)
Minimum value
(LOWER)
-0.500 cos φ
(0 cos φ)
Maximum value
(UPPER)
65.00 Hz (*)
Minimum value
(LOWER)
55.00 Hz
(45 Hz)
Maximum value
(UPPER)
100 % (*)
Minimum value
(LOWER)
0 % (*)
Maximum value
(UPPER)
180° (*)
Minimum value
(LOWER)
-180° (*)
(*) or ( ): Factory setting
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EM-6489-B Rev.4
P. 48 / 51
54UC
■ SETTING ALARM OUTPUT
Measurand: Current
Low setpoint: 50A
High setpoint: 120A
Hysteresis (deadband): 1%
Alarm ON delay time: 1 second
Discrete output: DO1
Change Setting
(SETTINGS)
Discrete I/O Setting
(DIO)
Alarm Output Setting
(ALARM)
Discrete output 1 function
(DO1-FUNC)
ALARM : Alarm output
Discrete output 1 mode
(DO1-TYPE)
N-O : Normally open
Measurands
(I1-3)
High setpoint
(HIGH)
120A
Low setpoint
(LOW)
50A
Hysteresis (deadband)
(HYSTERES)
1.0
Alarm ON delay time
(ON DELAY)
1
Alarm output
(OUTPUT)
DOUT 1
■ SETTING ENERGY COUNT OUTPUT
Measurand: Active energy
Pulse weight: 1 kWh/count
ON pulse width: 500 msec.
Discrete output: DO2
Change Setting
(SETTINGS)
Discrete I/O Setting
(DIO)
Energy Setting
(ENERGY)
Discrete output 2 function
(DO2-FUNC)
ENERGY : Energy count pulse
Discrete output 2 mode
(DO2-TYPE)
N-O : Normally open
Pulse output 2
(COUNT2)
EP : Active energy
Pulse weight 2
(WEIGHT2)
1.0
Pulse width 2
(DURATION2)
500
Tariff switching
(TARIFF)
DISABLE
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EM-6489-B Rev.4
P. 49 / 51
54UC
OPERATION EXAMPLES
■ HOW TO SET BARGRAPH INDICATION
■ HOW TO CHANGE VALUES (e.g. 5.000A to 150.0A)
Measured value display
press E.PRG.ESC button
2 seconds or more
press MAX
press PQS
press PF THD
press MAX
press
PQS
press MAX
button
button 6 times or
button
button
button
button
press ∑
3 times
press MAX
press
press PQS
5 times
button
press ∑
once
button
PQS
button
button
button
press MAX
button
press PF THD
5 times
press MAX
button
press ∑
once
press E.PRG.ESC button
4 times
button
button
press PF THD
once
button
Measured value display
press MAX
press MAX
button
button
Press
PQS
PF THD
Press
∑
IU
to increase or decrease the value.
to move between digits.
∑
Pressing
at the leftmost digit shifts the value on display to the right by 1 digit.
The decimal point and unit are also switched to appropriate ones.
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EM-6489-B Rev.4
P. 50 / 51
54UC
ERROR MESSAGES
‘ERR’ followed by numerical figures means a system error. Each figure indicates a particular system error status if there are
more than one digit of figures.
FIG
1
2
3
ERROR DIAGNOSTICS
Firmware destroyed
Calibration data destroyed
System parameters destroyed
System parameters stored in the device are destroyed, often due to excessive noise interference.
4
Energy reading data destroyed
Energy reading data stored in the device are destroyed, often due to excessive noise interference.
Average (demand) data destroyed
Average (demand) data stored in the device are destroyed, often due to
excessive noise interference.
Statistical data destroyed
Statistical data (e.g. MAX/MIN values) stored in the device are destroyed,
often due to excessive noise interference.
5
6
WHAT TO DO
Repair at the factory
Repair at the factory
Initialize the system parameters and set
them up again.
Go to SETTINGS ➝ MAINTE ➝ ALL CLEAR
➝ YES
Reset the energy readings (all energy and
time count) to zero.
Go to RESET ➝ ENERGY
Reset the average readings to zero.
Go to RESET ➝ DEMAND
Reset the statistical data to zero.
Go to RESET ➝ MAX/MIN
‘OL’ followed by a space and alphabets means an input overload error. Each alphabet indicates a particular input error if
there are more than one digit of alphabets.
CHR
F
I
U
ERROR DIAGNOSTICS
Either U1 or I1 (selectable) input is lost or the input line frequency is out
of measurable range (45 – 65 Hz).
Either of the current inputs is overload (120% or more of the rating).
Either of the voltage inputs is overload (120% or more of the rating).
WHAT TO DO
Check the input signals/wiring.
Check the input signals.
Check the input signals.
5-2-55, Minamitsumori, Nishinari-ku, Osaka 557-0063 JAPAN
Phone: +81(6)6659-8201 Fax: +81(6)6659-8510 E-mail: [email protected]
EM-6489-B Rev.4
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