Rayleigh Instruments RI-F300 User manual
RI-F100-C
OP532-V01
PRODUCT PROFILE
96mm x 96mm
SPECIFICATIONS
I
Display : Liquid crystal display with backlight 4 lines,
4 digits per line to show electrical Parameters
5th line, 8 digits to show energy Bar graph for
Current indication as percentage of CT rating
LCD Indications : - Integration of energy
PRG - Unit is in configuration menu
- Communication in progress
- Maximum & Minimum Demand of Power
Wiring Input : 3 Ø 4 wire 3 Ø - 4 wire-(Only MID approved for )
11 Ø 2 wire - P-
Rated Input Voltage : 3x2 0/4 V3 00
Installation Category : III (300V L-N)
Frequency :Range 47...63Hz (MID approved for 50Hz)
CT Primary : 6,000A (Programmable for any Value)1...
CT Secondary : 0.01...1(1.2)A (Meter Input: 330mV)
PT Primary : 100V 600V (Programmable for any value)...
PT Secondary : 173 415V AC (L-L) (Programmable for any value)...
Display Update Time : 1 sec for all parametersond
Display Scrolling : Automatic / Manual
Temperature : Operating: -10 C 55 C° °...
Storage : -20 C 75 C° °...
Humidity : 85% non-condensing
Mounting : Panel mounting
Meter Type : Indoor
Weight : 318gms
IP rating : IP54 Front only (When fitted with rubber gasket)
Pulse Output External VDC max. 100mA max: 5...27 / .
Pulse Duration : Selectable 50...300mS
Pulse Selectable 0.01 99.99kWhResolution: ...
Communications : RS485 Modbus RTU
The meter is intended to be installed in Mechanical Environment `M1`,with
Shock and Vibrations of low significance, as per 2004/22/EC Directive.
The meter is intended to be installed in Electromagnetic Environment `E2`,
as per 2004/22/EC Directive.
SAFETY PRECAUTIONS
RESOLUTION
PT Ratio x CT Ratio kWh
SERIAL COMMUNICATION
Interface standard and protocol
Communication address
Transmission Mode
Data types
Transmission distance
Transmission speed
Parity
Stop bits
RS AND485 MODBUS RTU
1 255...
Half duplex
Float, Hex and Integer
500 Met maximumre
300, 600,1200, 2400, 4800, 9600,
19200 (in bps)
None, Odd, Even
1 or 2
ACCURACY
Frequency
For L-N > 20V,
For L-L > 35V
Voltage VL-N
Voltage VL-L
Current
±0.5% of F.S.
±0.5% of F.S.
±0.5% of F.S.
±0.1% of F.S.
100 ms (max and independent of baud rate)
Response time
EN50470 : CI.B-3
EN62053-23: CI.2
Active Power
Apparent power
Reactive Power
1%
1%
1%
Power factor
Active energy
Reactive energy
Apparent energy
MAX/MIN
Active Power
MAX/MIN
Reactive Power
MAX Apparent Power
±0.01 (Digit)
1%
Class 1
1%
1%
NOTE:
Once Programming Mode Is entered The parameters
below will be locked out after 15 Minutes. No further
adjustment is possible without returning to supplier.
Network Selection PT secondary
CT Primary Pulse width
Pulse Duration PT Primary
Factory default Energy Reset
CONFIGURATION LOCK PARAMETER DESCRIPTION
Doc. name : OP INST RI-F 00 OP -V01(Page 1 of 6)3 300
Product
Outputs Certification
MID
RI-F 00 -C3 -* RS485 (Modbus RTU) & Pulse
(F.S - Full Scale)
For the installation to be valid the following steps must
be followed:
MID APPROVAL INSTALLATION NOTES
:
RI-F300
0.01K
0.1K
1K
0.01M
0.1M
<15
<150
<1500
<15000
>15000
ORDER INFORMATION
Safety related , symbols and instructions that appear in thisnotifications
operating manual or on the equipment must be strictly followed to ensure the
safety of personnel as well as the instrument.
If the equipment is not used in a manner specified by the manufacturer it may
impair the protection provided by the equipment.
Do not use the equipment if there is any mechanical damage.
Ensure that the equipment is supplied with correct voltage.
No repairs, maintenance or adjustments are possible.
WIRING GUIDELINES
prevent , always isolate the power supply to the1.To the risk of electrocution
equipment prior to undertaking any work. Always confirm absence of
supply prior to starting work using appropriate voltage detection
equipment.
2.Wiring shall be done strictly according to the terminal layout. Confirm that
before energizing the equipmentall connections are correct .
3.Routing of connecting cables shall be away from any internal EMI source.
4 C es voltage and output s. abl used for connection must have a cross section
of 0.5mm to 2.5mm . (20 to14AWG ; 75 C (min) )
2 2 0
5 s solid. Copper cable should be used. ( tranded or core cable)
6 be.All wiring to in accordance with applicable local standards
1.Read complete instructions prior to installation operation of the unit.or
2.Risk of electric shock. Only to be installed by competent personnel.
3.The equipment in its installed state must not come in close proximity to any
heating sources, oils, steam, caustic vapours or other unwanted process
by-products.
CAUTION
To change:
1. Press "I" for 3 secondsand hold until the display changes, release the
key. Press and hold the key again for 3 seconds.
2. Wait 5 seconds for meter to resume online reading. Meter display will
show LH when checked using the procedure described“To check”
below.
To check:
1. Press "I" for 3 secondsand hold until the display changes, release the
key.
2. Wait 5 seconds and the meter will resume normal operation.
Please note: All easywire current transformers as defaultTHREE PHASE
are configured to monitor Incoming supplies (L1 is on the right-hand side
when viewed from the P2 face. If the transformer is to be used for load
monitoring (Requiring L1 to be on the Left-hand side when viewed from
the P2 face), the operator must perform the procedure“To change”
described below;
CT ROTATION - IMPORTANT NOTE
I
Note:
blinks every 5 sec. This indicates energy is being consumed.
Example: If CT=100/5A (CT=20) & VT=380:380 (VT=1:1, VT=1), then energy
reading resolution=0.1K (20x1=20) and a pulse will be emitted every 100wh
1. The CT ratio must be set before putting the meter
into service.
2. The RJ45 connection between the meter and the
current transformer must be sealed.
The first Screen : Displays import active energy of first phase.
The second screen : Displays import active energy of second
phase.
The third screen : Displays import active energy of third phase.
The fourth screen : Displays export active energy of first phase.
The fifth screen : Displays export active energy of second phase.
The sixth screen : Displays export active energy of third phase.
The seventh screen : Displays total import active energy of three
phases.
The eighth screen : Displays total export active energy of three
phases.
The ninth screen : Displays total net active energy of three
phases.
The tenth Screen : Displays import reactive energy of first phase.
The eleventh screen : Displays import reactive energy of second
phase.
The twelveth screen : Displays import reactive energy of third
phase.
The thirteen screen : Displays export reactive energy of first
phase.
The fourteen screen : Displays export reactive energy of second
phase.
The fifteen screen : Displays export reactive energy of third
phase.
The sixteen screen : Displays total import reactive energy of
three phases.
The seventeen screen : Displays total export reactive energy of
three phases.
The eighteen screen : Displays total net reactive energy of three
phases.
The nineteen screen : Displays apparent energy of first phase.
The twenty screen : Displays apparent energy of second phase.
The twenty first screen : Displays apparent energy of third
phase.
The twenty second screen : Displays total net apparent energy
of three phases.
The twenty third screen : Displays run hour.
(Increment by 0.01hr after every 36 sec.)
NOTE :S 1. For 1 phase 2 wire only 1st, 4th, 7th, 8th, 9th, 10th, 13th,
16th, 17th,18th, 19th, 22st & 23rd screen will be available.
will be display
2. The Energy reading is displayed at the bottom of
every on-line page.
The first screen : Displays voltage, current, power factor of first
phase and frequency.
The second screen : Displays voltage, current, power factor of
second phase and frequency.
The third screen : Displays voltage, current, power factor of third
phase and frequency.
The fourth screen : Displays average value of voltage, current and
power factor of three phases and frequency.
Note :s In 1 Ø 2 wire system only 1st screen will be available.1.
2. The Energy reading is displayed at the bottom of every
on-line page.
FRONT PANEL DESCRIPTION
KEY
ONLINE PAGE DESCRIPTION
KEY
ONLINE PAGE DESCRIPTION
ONLINE PAGE DESCRIPTION
There are 6 dedicated keys labeled as V,
I, VAF, PF, P, E. Use these 6 keys to view
meter parameters.
If no key is pressed for 60 sec then the
meter turnsre to default page i.e Total
import active energy
Press
“V”
The first screen : Displays line to neutral Voltage of three
phases and average line to neutral voltage.
The second screen : Displays line to line voltage of three
phases and average line to line voltage.
The third screen : Displays total percentage harmonics of line to
neutral voltage of three phases and average line to neutral
voltage.
The fourth screen : Displays total percentage harmonics of line
to line voltage of three phases and average line to line voltage.
The fifth screen : Press for 3 sec, Displays phase sequence
indication. (Clockwise, Anticlockwise, Invalid)
Notes: 1. In 1 Ø 2 wire system only , and screen1st 3rd 5th
(1st phase parameter will be display).will be available.
2. The Energy reading is displayed at the bottom of every
on-line page.
The first screen : Displays phase current of three phase and
neutral current.
The second screen : Displays phase maximum current demand
of three phases and average current.
The third screen : Displays total percentage harmonic of current
of three phases and average phase current.
Note :s n Ø2wire system only 1st phase parameter will be1. I 1
available.
2. The Energy reading is displayed at the bottom of
every on-line page.
Press
“ ”I
Press
“VAF”
The first screen : Displays active power of three phases and
total active power.
The second screen : Displays reactive power of three phases
and total reactive power.
The third screen : Displays apparent power of three phases and
total apparent power.
The fourth screen : Displays active, reactive, apparent power
and power factor of first phase.
The fifth screen : Displays active, reactive, apparent power and
power factor of second phase.
The sixth screen : Displays active, reactive, apparent power and
power factor of third phase.
The seventh screen : Displays total active, reactive, apparent
power and average power factor of three phases.
The eighth screen : Displays maximum active power demand,
reactive power demand and apparent power demand.
The ninth screen : Displays minimum active power demand and
reactive power demand.
Note :s 1. In Ø2wire system only 1st, 2nd, 3rd, 4th, 8th & 9th1
screen will be available (1st phase parameters will be
display).
2. The Energy reading is displayed at the bottom of
every on-line page.
Press
“P”
The first screen : Displays power factor of three phases and
average power factor.
Note :s 1. In Ø 2 wire system only 1st phase power factor will be1
available.
2. The Energy reading is displayed at the bottom of every
on-line page.
Press
“PF”
Press
“E”
Press PF key for 10 sec, displays CRC in first two row, HW & SW version
no in 3rd and 4th raw & serial no in last row..
DEVICE IDENTIFICATION
Press E ( ) button for 3 seconds to toggle between Automatic and Manual
mode.
Note : Energy count does not auto scroll. If the displayed Energy
reading is altered it will always default back to Import Energy after 1
minute idle.
AUTOMATIC / MANUAL PAGE SCROLLING
Doc. name : OP INST RI-F 00 OP -V01(Page 2 of 6)3 300
P
Q
AVG
INT
Wh
0
2
5
5
0
7
5
1
0
0
1
0
2
5
5
0
7
5
1
0
0
2
0
2
5
5
0
7
5
1
0
0
3
k
Hz
A
kV
MkVAr
MkW
PF
S
DECLARATION OF CONFORMITY
For resetting energy parameters user will be prompted for password. If correct password is
entered, the user will be able to reset parameters. This password will be greater
than the configuration password by 1.
99
99
FRONT VIEW
53.30
5.70*
SIDE VIEW
90.50
90.50
BACK VIEW
MECHANICAL INSTALLATION / DIMENSIONS (in mm)
Max Page Auto 21
1 to 21
PROGRAMMING MENU
Function
Range or Selection
Config.
page.
Factory Setting
Password
Change Password
New Password
1000
0000
No
0000 to 9998
No / Yes
0000 to 9998
Network Selection 3P4W
3P4W 1P2W-P1,
CT Secondary 330mV
1
330mV
CT Primary
PT Secondary 350
1A to 6,000A
173V to 415V
1
PT primary
Slave Id
350
100V to 600V
1 to 255
1
Baud Rate
Parity
Stop Bit
Back Light
9600
None
0000
300, 600, 1200, 2400,
4800, 9600 and 19200
None, Even, Odd
1 or 2
0 to 7200 sec.
1
Demand interval method Sliding
Demand interval duration 15
15
1
1.1
2
3
4
5
6
7
8
9
10
11
12
13
14 Demand interval length
Sliding / Fixed
1 to 30
1 to 30 min
Factory Default
Reset Energy and Max Demand
Reset Active Energy
Reset Reactive Energy
Reset Apparent Energy
Reset Max Power
Reset Run Hour
19
20
20.01
20.02
20.03
20.04
20.05
No
No
No
No
No
No
No
No / Yes
No / Yes
Password
20.1 0000
0001 To 9999
No / Yes
No / Yes
No / Yes
No / Yes
No / Yes
Pulse duration
Pulse Resolution
18
17
Page sequence 14
Page sequence 15
14
15
16.14
16.15
Page 1 to 21
Page 1 to 21
Page 1 to 21
Page 1 to 21
Page 1 to 21
Page 1 to 21
Page 1 to 21
Page 1 to 21
Page sequence 16
Page sequence 17
16.16
16.17
16
17
Page sequence 7
Page sequence 8
Page sequence 9
Page sequence 10
Page sequence 11
Page sequence 12
Page sequence 13
10
9
8
7
6
5
4
3
2
1
11
12
1316.13
16.01 Page sequence 1 Page 1 to 21
Page 1 to 21
Page 1 to 21
Page 1 to 21
Page 1 to 21
Page 1 to 21
Page 1 to 21
Page 1 to 21
Page 1 to 21
Page 1 to 21
Page 1 to 21
Page 1 to 21
Page 1 to 21
Page sequence 2
Page sequence 3
Page sequence 4
Page sequence 5
Page sequence 6
16.02
16.03
16.04
16.05
16.06
16.07
16.08
16.09
16.10
16.11
16.12
Change Page Sequence
16 No
No / Yes
Page sequence 18
Page sequence 19
Page sequence 20
Page sequence 21
16.18
16.19
16.20
16.21
18
19
20
21
200
0.10
50 300to
00.01 to 99.99
Doc. name : OP INST RI-F 00 OP -V01(Page 3 of 6)3 300
*8.50 with
rubber
gasket fitted
There are 6 dedicated keys with symbols marked as , , , , , use
these 6 keys to enter into configuration menu change .the and to values
NOTE : The settings should afteronly be modified by a competent person
having read s fully .this user manual and having understood the application
(Please refer configuration lock before entering into note on Page 1 to
configuration mode)
Key functions:
Press + keys for 3 sec to enter or exit from the configuration menu.
Use or keys to move curser left or right by one digit each time.
Use or keys for increasing or decreasing parameters value.
Use key to go back to previous page.
Use key to save the setting and move on to next page.
91.5
Panel Cutout
91.5
MECHANICAL INSTALLATION
Installation:
1. Prepare the panel cutout with dimensions s shownaabove. Ensure any burrs
are removed.
2.Push the meter into the panel cutout. Secure the meter using the provided
ratchet fixings.
A PPPLICATION OF ULSE OUTPUT
TERMINAL CONNECTIONS
V2V3 N
V1
V3V1
N
Voltage Input
Voltage Output
V2
CT Input
(RJ45)
RS485
+
-
+
-
PULSE
O/P
INSTALLATION NOTES
CT INPUT - Only Rayleigh Instruments RI-CTxxxEW Easywire Current transformers may be used with
this meter.
VOLTAGE INPUT - This meter is self-supplied from all three phases L-N. The Neutral conductor
must be present.
VOLTAGE OUTPUT - This output is used to ‘Daisy chain’additional meters so they can be supplied
from one supply. Maximum 32 meters total.
For Example, To find the 14 Harmonic address of Voltage V31
th
following formula can be used :
Formula with the parameter :
{143 + [(Harmonic no-2) x 2] + 60 x C P}
Eg. {143 + [(14-2) x 2 ] + 60 x 5} = 467
So, Check the 14 Harmonic of Voltage V31 at 467 address.
th
Formula to find address of individual Harmonic {143 + [(Harmonic no-2) x 2] + 60 x Constant Parameter}
Meaning
Voltage V1N
Voltage V2N
Voltage V3N
Voltage V12
Voltage V23
Voltage V31
Current I1
Current I2
Current I3
Constant
Parameter
0
1
2
3
4
5
6
7
8
Readable / writable parameters : [Data Structure : Integer]
Address Parameter
Hex Address
40000 0x00 Password
Length (Register)
1
Range
Min value : 0 Max value : 9998
Value : 1
Value : 0x0000
Value : 0x0001
Value : 0x0002
Value : 0x0003
Value : 0x0004
Value : 0x0005
Value : 0x0006
Value : 0x0000
Value : 0x0001
Value : 0x0002
Value : 0x0000
Value : 0x0001
Meaning : 255
Meaning : 300
Meaning : 600
Meaning : 1200
Meaning : 2400
Meaning : 4800
Meaning : 9600
Meaning : 19200
Meaning : None
Meaning : Odd
Meaning : Even
Meaning : 1
Meaning : 2
Min value : 0 Max Value : 7200
40008
40009
40010
0x08
0x09
0x0A
Baud rate
Parity
Stop bit
40011 0x0B Backlight OFF
1
1
1
1
1
1
Slave id
0x0740007
Meaning
Constant
Parameter
Value : 1
Value : 1
Doc. name : OP INST RI-F 00 OP -V01(Page 4 of 6)3 300
MODBUS REGISTER ADDRESSES LIST
MODBUS REGISTER ADDRESSES LIST Readable Parameters : [ Length (Register) : 2 ; Data Structure : Float ]
Min Value : 1 Max Value : 21
40016 0x10 Auto Mode Pages
40018
40019
40020
40021
40022
40023
0x12
0x13
0x14
0x15
0x16
0x17
Page No : 1-21
Page No : 1-21
Page No : 1-21
Page No : 1-21
Page No : 1-21
Page No : 1-21
Page No : 1-21
Page No : 1-21
Page No : 1-21
Page No : 1-21
Page No : 1-21
Page No : 1-21
Page No : 1-21
Page No : 1-21
Page No : 1-21
Page No : 1-21
Page No : 1-21
Page No : 1-21
Page No : 1-21
Page No : 1-21
Page No : 1-21
Meaning : 1-First Page ; 21-Last Page
Meaning : 1-First Page ; 21-Last Page
Meaning : 1-First Page ; 21-Last Page
Meaning : 1-First Page ; 21-Last Page
Meaning : 1-First Page ; 21-Last Page
Meaning : 1-First Page ; 21-Last Page
Meaning : 1-First Page ; 21-Last Page
Meaning : 1-First Page ; 21-Last Page
Meaning : 1-First Page ; 21-Last Page
Meaning : 1-First Page ; 21-Last Page
Meaning : 1-First Page ; 21-Last Page
Meaning : 1-First Page ; 21-Last Page
Meaning : 1-First Page ; 21-Last Page
Meaning : 1-First Page ; 21-Last Page
Meaning : 1-First Page ; 21-Last Page
Meaning : 1-First Page ; 21-Last Page
Meaning : 1-First Page ; 21-Last Page
Meaning : 1-First Page ; 21-Last Page
Meaning : 1-First Page ; 21-Last Page
Meaning : 1-First Page ; 21-Last Page
Meaning : 1-First Page ; 21-Last Page
40017 0x11 Page Address Sequence
Page Address Sequence
Page Address Sequence
Page Address Sequence
Page Address Sequence
Page Address Sequence
Page Address Sequence
Page Address Sequence
Page Address Sequence
Page Address Sequence
Page Address Sequence
Page Address Sequence
Page Address Sequence
Page Address Sequence
Page Address Sequence
Page Address Sequence
Page Address Sequence
Page Address Sequence
Page Address Sequence
Page Address Sequence
Page Address Sequence
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
40024
40025
40026
40027
0x18
0x19
0x1A
0x1B
MIN Value : 1
MIN Value : 1
Meaning : Reset all Max power &
Max Current
Meaning : Reset Run hour
Value : 0x0000 Meaning : Sliding
Value : 0x0001 Meaning : Fixed
MAX Value : 30
MAX Value : 30
40028
40029
40030
40031
40032
40033
40034
40035
40036
40043
40045
40054
40055
40059
40060
0x1C
0x1D
0x1E
0x1F
0x20
0x21
0x36
0x37
0x3B
0x3C
0x22
0x23
0x24
0x2B
0x2D
Demand Interval Method
Demand Interval Duration
Reset Max
Demand Interval Length
Reset Run Hour
1
1
1
1
1
0x38
30056
0x3A
30058
0x3C
30060
0x3E
30062
0x4030064
0x4230066
0x52
0x54
0x56
0x58
0x5A
0x5C
0x5E
0x60
0x62
0x64
0x66
0x68
30082
30084
30086
30088
30090
30092
30094
30096
30098
30100
30102
30104
0x44
0x46
30068
30070
0x48
30072
0x4A
0x4C
0x4E
0x50
30074
30076
30078
30080
0x6A
0x6C
0x6E
30106
30108
30110
Frequency
Total net kWh
Total net kVAh
Total net kVArh
kW Max Active Power
kW Min Active Power
Run hour
kWh1 (Imp)
kWh2 (Imp)
kWh3 (Imp)
kWh1 (Exp)
kWh2 (Exp)
kWh3 (Exp)
Total kWh (Imp)
Total kWh (Exp)
kVArh1 (Imp)
kVArh2 (Imp)
kVArh3 (Imp)
kVAr Max Reactive Power
kVAr Min Reactive Power
kVA Max Apparent Power
MAX I1 Demand
MAX I2 Demand
MAX I3 Demand
MAX Avg Demand
kVArh1 (Exp)
kVArh2 (Exp)
kVArh3 (Exp)
Address Hex Address Parameter
kVA3
kVAr1
kVAr2
kVAr3
Total KW
0x22
0x24
0x26
0x28
0x2A
30034
30036
30038
30040
30042
Total KVA
0x2C
30044
Total KVAr0x2E
30046
PF1
0x30
30048
PF2
0x3230050
PF3
0x3430052
Average PF
0x3630054
0x70
0x72
0x74
0x76
0x7A
0x7C
0x7E
0x78
30112
30114
30116
30118
30122
30124
30126
30120
0x84
0x88
0x8A
0x8C
0x8E
0x2BC
0x2AC
30132
30134
30136
30138
30140
30700
30684
0x80
0x82
30128
30130
Total kVArh (Imp)
Total kVArh (Exp)
kVAh1
kVAh2
Neutral Current
THD of 1st Phase Voltage
THD of 2nd Phase Voltage
kVAh3
THD of Voltage V23
THD of Voltage V31
THD of Current I1
THD of Current I2
THD of Current I3
Phase Sequence Indication
(Data structure: Integer)
0 - Clockwise 1 - Anticlockwise
2 - Invalid
Serial no. (Data Structure : Hex)
THD of 3rd Phase Voltage
THD of Voltage V12
30702
30704
30706
30708
0x2BE
0x2C0
0x2C2
0x2C4
30710 0x2C6
30712 0x2C8
30714 0x2CA
30716 0x2CC
30718 0x2CE
Existing KW MIN Active Power
Existing KVAr MAX Reactive Power
Existing KVAr MIN Reactive Power
Existing KW MAX Active Power
Existing KVA MAX Apparent Power
Existing MAX I1 Demand
Existing MAX I2 Demand
Existing MAX I3 Demand
Existing MAX Avg. I Demand
kVA2
0x2030032
Voltage V1N
Voltage V2N
Voltage V3N
Average Voltage LN
Voltage V12
Voltage V23
Voltage V31
Average Voltage LL
Current I1
Current I2
Current I3
Address
Hex Address
Parameter
0x00
0x02
0x04
0x06
0x08
0x0A
0x0C
0x0E
0x10
0x12
0x14
30000
30002
30004
30006
30008
30010
30012
30014
30016
30018
30020
Average Current
kW1
kW2
Address Hex Address Parameter
0x16
0x18
0x1A
30022
30024
30026
kW3
kVA1
0x1C
0x1E
30028
30030
MODBUS REGISTER ADDRESSES LIST Readable Parameters : [Length (Register) : 2 ; Data Structure : Float]
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
0x445
0x448
0x44B
0x44E
0x451
0x454
0x457
0x45A
0x45D
0x460
0x463
0x466
0x469
0x46C
0x46F
0x472
31093
31096
31099
31102
31105
31108
31111
31114
31117
31120
31123
31126
31129
31132
31135
31138
NOTE : LSB will be displayed on lower address and MSB will be displayed on higher address. Readable parameters : [ Data Structure : Hex ]
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
0x3E8
0x3EA
0x3EC
0x3EE
0x3F0
0x3F2
0x3F4
0x3F6
0x3F8
0x3FA
0x3FC
0x3FE
0x400
0x402
0x404
0x406
0x408
0x40A
0x40C
0x40E
0x410
31000
31002
31004
31006
31008
31010
31012
31014
31016
31018
31020
31022
31024
31026
31028
31030
31032
31034
31036
31038
31040
Address Hex Address Parameter Length
2
2
0x412
0x414
31042
31044
2
2
1
1
1
1
3
3
3
1
0x416
0x418
0x41A
0x41B
0x41C
0x41D
0x41E
0x421
0x424
0x427
31046
31048
31050
31051
31052
31053
31054
31057
31060
31063
2
0x428
31064
2
2
2
2
2
2
2
2
0x42A
0x42C
0x42E
0x430
0x432
0x434
0x436
0x438
31066
31068
31070
31072
31074
31076
31078
31080
Total Kw
Total Kva
Total Kvar
Neutral Current
PF1
PF2
PF3
Avg PF
Total net Kwh
Total net Kvah
Total net Kvarh
Frequency
Kw max Active Power
Kw Min Active Power
Kvar Max Reactive Power
Kvar Min Reactive Power
Kva Max Apparent Power
Max I1 Demand
Max I2 Demand
Max I3 Demand
Max Avg Demand
2
0x43A
31082
3
0x43C
31084
3
0x43F
31087
30x442
31090
Kwh1(Exp)
Kwh2(Exp)
Kwh3(Exp)
Total Kwh (Imp)
Total Kwh (Exp)
Kvarh1(Imp)
Kvarh2(Imp)
Kvarh3(Imp)
Kvarh1(Exp)
Kvarh2(Exp)
Kvarh3(Exp)
Total Kvarh(Imp)
Total Kvarh(Exp)
Kvah1
Kvah2
Kvah3
Run Hour
Kwh1(imp)
Kwh2(imp)
Kwh3(imp)
Address
Hex Address
Parameter Length Address Hex Address
Parameter
Length
Note - Voltage and current will display in mV and mA. Power will display in W(Active), VAr (Reactive) & VA(Apparent). Energy will display in Wh(Active) VArh(Reactive) & VAh(Apparent)
Voltage V1N
VoltageV2N
Voltage V3N
Average Voltage LN
Voltage V12
Voltage V23
Voltage V31
Average VoltageLL
Current I1
Current I2
Current I3
Average current
Kw1
Kw2
Kw3
Kva1
Kva2
Kva3
Kvar1
Kvar2
Kvar3
Doc. name : OP INST RI-F 00 OP -V01(Page 5 of 6)3 300
Energy rollover counter addresses : Energy rollover counter will increment when energy is roll over from 99999999 to 0. Integer[ Data Structure : ]
1
1
1
1
1
1
1
1
IMP Kwh1 RC*
IMP Kwh2 RC*
IMP Kwh3 RC*
EXP Kwh1 RC*
EXP Kwh2 RC*
EXP Kwh3 RC*
Toatl IMP Kwh RC*
Total EXP Kwh RC*
1
1
1
IMP Kvarh1 RC*
IMP Kvarh2 RC*
IMP Kvarh3 RC*
1
1
1
EXP Kvarh1 RC*
EXP Kvarh2 RC*
EXP Kvarh3 RC*
1
1
1
Total IMP Kvarh RC*
Total EXP Kvarh RC*
Total Net Kvarh RC*
NOTE : : Rollover counterRC*
1
1
1
1
1
Total Net Kwh RC*
Kvah1 RC*
Kvah2 RC*
Kvah3 RC*
Total Net Kvah RC*
4B0
4B1
4B2
4B3
4B4
4B5
4B6
4B7
31200
31201
31202
31203
31204
31205
31206
31207
4B8
4B9
4BA
31208
31209
31210
4BB
4BC
4BD
4BE
4BF
31211
31212
31213
31214
31215
4C0
4C1
4C2
31216
31217
31218
4C3
4C4
4C5
31219
31220
31221
Doc. name : OP INST RI-F 00 OP -V01(Page 6 of 6)3 300
Rayleigh Instruments Ltd.
Raytel House, Cutlers Road,
South Woodham Ferrers, Essex,
CM3 5WA, UK
Tel. 0044(0)1245428500
www.rayleigh.com
(Specifications are subject to change, since development is a continuous process.)
WIRING INFORMATION
CONNECTION DIAGRAM FOR RS485
Master
RS485-RS232 Converter Suggested terminating resistor
(120 ohm, ¼ watt)
P
Q
AVG
INT
Wh
0
2
5
5
0
7
5
1
0
0
1
0
2
5
5
0
7
5
1
0
0
2
0
2
5
5
0
7
5
1
0
0
3
k
Hz
A
kV
MkVAr
MkW
PF
S
P
Q
AVG
INT
Wh
0
2
5
5
0
7
5
1
0
0
1
0
2
5
5
0
7
5
1
0
0
2
0
2
5
5
0
7
5
1
0
0
3
k
Hz
A
kV
MkVAr
MkW
PF
S
P
Q
AVG
INT
Wh
0
2
5
5
0
7
5
1
0
0
1
0
2
5
5
0
7
5
1
0
0
2
0
2
5
5
0
7
5
1
0
0
3
k
Hz
A
kV
MkVAr
MkW
PF
S
A PPPLICATION OF ULSE OUTPUT
P :ULSE OUTPUT
P
L
C
5 -27VDC
+
LOAD
L1
L2
L3
N
V2V3 N
V1
V3V1
N
Voltage Input
Voltage Output
V2
CT Input
RS485
+
-
+
-
PULSE
O/P
Note: # All fuse types:
0.5A class CC UL type
0.5A fast acting 600V
!The pulse output is of
semiconductor type and must be
supplied with a voltage.
!The pulse output can be
interfaced into a process through
a PLC.
If the PLC has a self excited digital
input, external DC supply is
not necessary.
Supply to up to 31
additional meters
(Total 32 max.)
RJ45 Cable
L1
L2
L3
N
#
Table of contents
Other Rayleigh Instruments Measuring Instrument manuals
