General
Specifications
<<Contents>> <<Index>>
Overview
This panel-mounted power and energy meter with a
large, three-row LED display integrates all the measur-
ing functions required for power management in
locations such as factories and buildings into a single
unit.
With the objective of working toward the preservation
of the global environment by saving energy and
performing equipment maintenance, the PR300 is
designed to display and output the energy of various
types of electrical equipment.
Features
Saves on cost, wiring, and space
Integrates a wide selection of functions for measuring things
like energy (active, regenerative, reactive, and apparent),
power (active, regenerative, reactive, and apparent),
voltage, current, frequency, and power factor into a single
unit.
Employs a large, three-row LED display
Capable of displaying three-phase current and voltage
simultaneously, and the measurement items you assign.
Analog output function
Equipped with a transducer function for power (active,
regenerative, reactive, and apparent), voltage, current,
frequency, and power factor (4 to 20 mA DC).
Demand measurement
Measures the average power and current within a specified
period. It also allows you to set up alarm points to output
alarms.
Equipped with a multitude of functions
Enables measurement of the maximum and minimum
values of voltage and the maximum value of current, as well
as, for example, the use of external digital input to measure
energy at arbitrary times.
Pulse output
Capable of outputting pulses proportional to energy (one
measurement item from active, regenerative, reactive, and
apparent energy).
Converts the phase and wire system of an AC power
system and an input voltage circuit to a universal
format
The PR300 can handle from the single-phase two-wire
system and single-phase three-wire system to the three-
phase three-wire system and three-phase four-wire system,
and also universally cope with input voltage circuits up to
600 V AC.
Compatible with ANSI 4-inch round form size and
DIN 96-square instrument size
The ability to attach and detach JIS/ANSI-mounting kit
makes the PR300 compatible with panel cutouts of ANSI 4-
inch round form, JIS 110-square instrument size, and DIN
96-square instrument size.
•Standard equipped with an RS-485 communication
function and capable of Ethernet communication
Compatible with overseas requirements
Power line indications A, B, and C provided for overseas
use, in addition to R, S, and T
GS 77C01E01-01E
GS 77C01E01-01E
©Copyright Apr. 2006 (KP)
5th Edition Dec. 10, 2008 (KP)
Model PR300
Power and Energy Meter
Model and Suffix Codes
PR300 -0
Model
Phase and wire system
3:
Universal three-phase three-wire system
(single-phase two-wire, single-phase three-wire,
a
nd three-phase three-wire systems)
4:
Universal three-phase four-wire system
(single-phase two-wire, single-phase
three-wire, three-phase three-wire, and
three-phase four-wire systems)
5: Three-phase four-wire system
(2.5 element
)
*
1
Input voltage/input current
1: Universal voltage input*
2
(150 V, 300V, 600 V) / 1 A AC
2: Universal voltage input*
2
(150 V, 300 V, 600 V) / 5 A AC
Additional input and output function
0: 1 digital input
1: 1 digital input, 1 analog output
2: 1 digital input, 1 pulse output
3:
1 digital input, 1 analog output, 1 pulse output
Communication function
0: RS-485 communication
3:
RS-485 communication, Ethernet communication
*
3
Optional measuring function
0: None
3: Demand measurement (1 demand alarm output)
Power supply
6:
100-240 V AC 10% (50/60 Hz) or 130-300 V DC 15%
Phase indication format
A: A, B, and C indications
R: R, S, and T indications
*1 In cases where
“Three-phase four-wire system (2.5 element)” is
specified, the input current specification of 1 A AC is not applicable.
(PR300-51xxx-xx-0 cannot be ordered.)
Can be used only when the voltage is in a state of equilibrium.
The phase and wire system cannot be changed.
*2 Set the voltage range (150 V, 300 V, or 600 V) according to the
rated input voltage to be measured.
(Refer to “Rated Input
Voltage” of the Input Specifications on page 6.)
*3
For Ethernet communication, the RS-485 communication interface
is exclusively for the Ethernet-serial gateway function.
Ordering Information
Specify the model and suffix codes.
Example: PR300-31000-6A-0
The ability to attach and detach JIS/ANSI-mounting kit
ensures compatibility with two sizes.
ANSI 4-inch round form size
DIN 96-square instrument size
2
All Rights Reserved. Copyright © 2006, Yokogawa Electric Cor poration
<<Contents>> <<Index>>
GS 77C01E01-01E 5th Edition Dec. 10, 2008-00
Measuring Functions
Active energy () *1 kWh, MWh
Active energy () *1 kWh, MWh Regenerative energy
Reactive energy () *1
*4
kvarh, Mvarh LAG:
Reactive energy () *1
*4
kvarh, Mvarh LEAD:
Apparent energy *1
*4
kVAh, MVAh
Optional active energy *1 Wh
Instantaneous
Active power Maximum W, kW, MW
Minimum
Instantaneous
Reactive power Maximum
*4
var, kvar, Mvar
Minimum
Instantaneous
Apparent power
Maximum
*4
VA, kVA, MVA
Minimum
Instantaneous
Voltage-1 Maximum ✔ ✔ V, kV
Minimum
Instantaneous
Voltage-2 Maximum V, kV
Minimum
Instantaneous
Voltage-3 Maximum V, kV
Minimum
Current-1
Instantaneous
*4
A, kA
Maximum
Current-2
Instantaneous
A, kA
Maximum
Current-3
Instantaneous
*4
A, kA
Maximum
Instantaneous
Frequency Maximum Hz
Minimum
Instantaneous
Power factor Maximum
*4
COS LAG:
Minimum
LEAD:
Demand current-1
Demand
*4
A, kA
Maximum
*4
A, kA
Demand current-2
Demand
A, kA
Maximum A, kA
Demand current-3
Demand
*4
A, kA
Maximum
*4
A, kA
*2
Demand
✔ ✔ W, kW, MW
Demand power Maximum ✔ ✔ W, kW, MW
*1 Integrated low-cut power can be set for each energy.
Integrated low-cut power: This is a function for not integrating power less than a set value as energy.
The setting range of integrated low-cut power is 0.05 to 20.00% of the rated power (initial value: 0.05%).
*2 Either demand power or demand current can be set as a measurement item.
*3 Can be used only when the voltage is in a state of equilibrium.
*4 Can be measured only when the current is in a state of equilibrium.
Single-phase
two-wire
system
Single-phase
three-wire
system
Three-phase
three-wire
system
Three-phase
four-wire
system
Three-phase
four-wire system
(2.5 element)
*
3
Remarks
Unit and
symbol
Measurement item
: Effective
: Ineffective
Demand current
*2
Calculated from the
voltage-1
3
<<Contents>> <<Index>>
All Rights Reserved. Copyright © 2006, Yokogawa Electric Cor poration GS 77C01E01-01E 5th Edition Dec. 10, 2008-00
Optional integrating function
Power is integrated while a control signal for optional integration is on.
When the control signal is switched from off to on, the optional integrated value indication is reset and integration
starts. (The integrated value prior to the reset is held in a register.) The integrated value cannot be guaranteed in
the event of a power failure occurring during integration.
Demand measurement (when demand measurement is specified)
The PR300 measures average power or average current within a set demand period.
The maximum demand value for the demand measuring time is held until the power is turned off, remote reset is
executed, or the next demand measurement is started.
Item Setting Range
Resolution
Initial Value Remarks
Demand power/current Active power, current Active power
Demand period
1 to 60 minutes
1 minute 30 minutes
Demand alarm mask time Demand period
(Demand alarm mask time to 60 minutes)
Demand alarm mask time* 1 minute to length of demand period 1 minute 1 minute
Demand power alarm point 1 to 1000 kW 1 kW 100 kW When demand power is selected
Demand current alarm point 1 to 1000 A 1 A 100 A When demand current is selected
Alarm release function Automatic release and manual release Automatic
release
Data update interval 10 seconds
* This is the time from the start of the demand period to the set time in which no judgment is made for the alarm (alarm masked). During the
alarm mask time, no maximum demand value is updated and no alarm is output.
Average power
(current) update Average power
(current) update
Start
demand
measurement
Stop
demand
measurement
The maximum demand value for this time is held.
Demand period (1 period)
Demand measuring time
4
All Rights Reserved. Copyright © 2006, Yokogawa Electric Cor poration
<<Contents>> <<Index>>
GS 77C01E01-01E 5th Edition Dec. 10, 2008-00
Display and Operation Specifications
(2)
(1)
(3)
(11)
(12)
(4)
(5)
(7)(6) (8) (9) (10)
Lower display
Middle display
Upper display
Measurement Item Display
Active energy [kWh, MWh] *1
Reactive energy [kvarh, Mvarh] *2
Apparent energy [kVAh, MVAh] *1
Regenerative energy [kWh, MWh] *2
Optional active energy [Wh]
Active/regenerative power (instantaneous, maximum, and minimum values)
[W, kW, MW] *2, *3
Reactive power (instantaneous, maximum, and minimum values)
[var, kvar, Mvar] *2, *3
Apparent power (instantaneous, maximum, and minimum values)
[VA, kVA, MVA] *1, *3
Voltage (instantaneous, maximum, and minimum values)
[V, kV] *1, *3
Current (instantaneous and maximum values) [A, kA] *2, *4
Power factor (instantaneous, maximum, LEAD: d [COS] *3
and minimum values) LAG: G [COS]
Frequency (instantaneous, maximum, and minimum values)
[Hz] *3
Demand power [W, kW, MW] [DEMAND] *4
Maximum demand power
Demand current [A, kA] [DEMAND] *4
Maximum demand current
Measured Value screen:
Display pattern: The measurement items you want to display are assigned to each of the upper, middle, and lower displays
to provide indications using three display rows as one pattern. Up to eight display patterns can be set.
The initial values are as shown in the following table. (Combinations other than those shown in the
following table are also available if the parameters are set.)
Number of display patterns: Can be set in the range of 1 to 8. Pressing the SET/ENT key switches the display from
"display pattern-1," "display pattern-2," and so on in order according to the number of patterns set. The
initial value is "1" and only display pattern-1 is displayed when this value is set.
Display Pattern-1
Display Pattern-
2
Display Pattern-
3
Display Pattern-
4
Display Pattern-
5
Display Pattern-
6
Display Pattern-
7
Display Pattern-
8
Upper
display
Middle
display
Lower
display
Current
(Phase switch
indication)*
Voltage
(Phase switch
indication)*
Active power
Current
(Phase switch
indication)*
Voltage
(Phase switch
indication)*
Frequency
Current
(Phase switch
indication)*
Active power
Power factor
Active energy
LEAD reactive
energy
Apparent
energy
Current-1
Current-2
Current-3
Voltage-1
Voltage-2
Voltage-3
Active power
Reactive
power
Power factor
Active power
Maximum
demand value
Demand
value
*1: Without sign, but with a decimal point
*2:
With a sign and a decimal point ("+" is not indicated). Regenerative power (energy) always shows "" negative
indication.
The position of a decimal point differs depending on the primary rated power, VT ratio, and CT ratio.
*3: "MAX" lights up for the maximum value and "MIN" lights up for the minimum value.
*4: "MAX" lights up for the maximum value.
* The display of current (phase switch indication) is switched between current-1, current-2, and current-3 each time the SEL key is
pressed. The display of voltage (phase switch indication) is switched between voltage-1, voltage-2, and voltage-3 each time the SEL key
is pressed.
5-digit, 3-row, 7-segment LED display
Display color: red
Measured Value display:
Measured
Value Display
(1)
<Continued on the
following page>
5
<<Contents>> <<Index>>
All Rights Reserved. Copyright © 2006, Yokogawa Electric Cor poration GS 77C01E01-01E 5th Edition Dec. 10, 2008-00
Phase and Wire System Voltage-1 Voltage-2 Voltage-3 Current-1 Current-2 Current-3
Single-phase two-wire system A (R) A (R)
Single-phase three-wire system
A, B (R, S) B, C (S, T) A (R) C (T)
Three-phase three-wire system
A, B (R, S) B, C (S, T) A (R) C (T)
Three-phase four-wire system A (R) B (S) C (T) A (R) B (S) C (T)
Three-phase four-wire system A (R) C (T) A (R)* C (T)*
(2.5 element)
(2) Unit Lamps The relevant unit lamp lights up according to a measurement item and measured value.
Display color: red
(3)
MAX and MIN Lamps
Either the MAX or MIN lamp lights up when a maximum or minimum measured value is displayed.
Display color: red
(4)
Phase Indication Lamps
Indicate the phase to which the measured value corresponds. (The A, B, and C indications or R, S, and T indications
should be specified in accordance with the suffix code.)
Display color: red
* Can be measured only when the current is in a state of equilibrium.
(5) Power Lamp Lights up when power is supplied.
Blinks (4 times/sec) until it returns to normal when the communication error occurs.
Display color: green
(6)
Communication Lamp
Blinks during communication (RS-485 or Ethernet).
Display color: green
(7) Pulse Output Lamp
Lights up when output is produced during pulse output, and goes out when no output is produced.
Display color: green
(8)
Demand Alarm Lamp
If a demand value exceeds the demand alarm point at a time other than during the alarm mask time, the OVER lamp
lights up to indicate the occurrence of an alarm.
Display color: red
(9) Phase and Wire The lamps of the phase and wire system that have been set light up.
System Lamps Display color: green
(10) Input Range Lamps The input voltage range (150 V, 300 V, or 600 V) and input current range (1 A or 5 A) that have been set light up.
Display color: green
(11) DEMAND Lamp Lights up when a demand value is displayed.
Display color: red
(12) Operation Keys
VT ratio/CT ratio:
If the VT ratio and CT ratio are set, input to the PR300 is displayed after converting it to the primary input value before VT
or CT. The VT and CT ratios can be set via communication or using the operation keys.
VT ratio setting range: 1 to 6000*
CT ratio setting range: 0.05 to 32000*
* Set the VT ratio and CT ratio so that [secondary rated power] [VT ratio] [CT ratio] is smaller than 10 GW.
Indicator-out Mode Setting
This function turns off LEDs after a certain time elapses, with the exception of the power lamp (LED).
The ON/OFF setting of the indicator-out mode function and the wait time before entering the indicator-out mode can
be set using the operation keys. (Cannot be set via communication.)
Indicator-out mode: ON/OFF (initial value: OFF)
Indicator-out mode wait time: 1 to 60 minutes (resolution: 1 minute) (initial value: 10 minutes)
A/D sampling rate: 4.8 kHz
Internal measurement data: display/communication data is updated at an interval of 1 second or less
Used to switch measured value display patterns.
This key is also used for setting parameters.
Used to move the display digit during energy indication.
This key is also used for setting parameters.
Used to display the maximum or minimum measured value.
These keys are also used for setting parameters.
Used to switch phase indications when the PR300 displays a voltage or current for which phase indication can be
changed. (Phase switch indication is not available for single-phase two-wire system.)
This key is also used for setting parameters.
Used to start/stop demand measurement.
The lamp in the key lights up during demand measurement. Display color: green
A/D Sampling Rate,
Data Update Interval
6
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<<Contents>> <<Index>>
GS 77C01E01-01E 5th Edition Dec. 10, 2008-00
Input Specifications
• Single-phase two-wire system
Input (AC) Input
Measuring
Range Voltage Current
0.2 VA
0.4 VA 0.2 VA
0.8 VA
Rated
Power
120V/1A
120V/5A
240V/1A
240V/5A
480V/1A
480V/5A
100 W
500 W
200 W
1000 W
400 W
2000 W
120 to 120 W
600 to 600 W
240 to 240 W
1200 to 1200 W
480 to 480 W
2400 to 2400 W
• Three-phase three-wire system
120V/1A
120V/5A
240V/1A
240V/5A
480V/1A
480V/5A
200 W
1000 W
400 W
2000 W
800 W
4000 W
240 to 240 W
1200 to 1200 W
480 to 480 W
2400 to 2400 W
960 to 960 W
4800 to 4800 W
Rated Voltage Voltage Range (Variable)
120 V 150 V
240 V 300 V
480 V 600 V
The primary voltage of VT
900 kV
1800 kV
3600 kV
The primary current of CT
32 kA
160 kA
Allowable Input Voltage
150 V
300 V
600 V
Rated Current Current Range (Fixed)
1 A 1 A
5 A 5 A
Allowable Input Current
1.2 times the current range (continuous)
Twice the current range (10 seconds) or
10 times the current range (3 seconds)
• Input measuring range when VT and CT are used
The primary input power (Secondary rated power 1.2 VT ratio CT ratio) is smaller than 10 GW and the
value calculated by the following equation is within the input measuring range mentioned above.
Input measuring range (W) = Primary input power (W)
VT ratio CT ratio
Phase and Wire
System
Frequency
Rated Input Voltage
Universal three-phase three-wire system (switch the setting from single-phase two-wire system, single-phase three-wire
system, or three-phase three-wire system)
Universal three-phase four-wire system (switch the setting from single-phase two-wire system, single-phase three-wire
system, three-phase three-wire system, or three-phase four-wire system)
Three-phase four-wire system (2.5 element)
Rated Input Current
Rated Input Power
and Measuring Range
(When VT and CT are
used, their respective
secondary values)
Approximate
Consumed VA
Input (AC) Input
Measuring
Range Voltage Current
Rated
Power
Approximate
Consumed VA
0.2 VA/
phase
0.8 VA/
phase
0.2 VA/
phase
0.4 VA/
phase
• Three-phase four-wire system
120V/1A
120V/5A
240V/1A
240V/5A
480V/1A
480V/5A
300 W
1500 W
600 W
3000 W
1200 W
6000 W
360 to 360 W
1800 to 1800 W
720 to 720 W
3600 to 3600 W
1440 to 1440 W
7200 to 7200 W
Input (AC) Input
Measuring
Range Voltage Current
Rated
Power
Approximate
Consumed VA
0.2 VA/
phase
0.8 VA/
phase
0.2 VA/
phase
0.4 VA/
phase
• Single-phase three-wire system
240V/1A
240V/5A 200 W
1000 W 240 to 240 W
1200 to 1200 W
Input (AC) Input
Measuring
Range Voltage Current
Rated
Power
Approximate
Consumed VA
0.2 VA/
phase 0.2 VA/
phase
45 to 65 Hz
*
*
*
*Input specification of 1 A AC is not available for 2.5 element.
Digital Input Specifications
For digital input, either the optional integration start/stop or the demand alarm release can be used.
If demand measurement is specified for an optional measuring function, digital input enters demand alarm release
status. In this case, the optional integration start/stop cannot be used.
Control signal for optional integration
* A special order can be placed for no-voltage contact.
Note: Optional integration control is also possible via communication.
Once control is performed by digital input, only digital input-based control is available. Communication-based control is no longer
possible until the power is turned off/on or remote reset is executed.
Function Starts or stops optional integration.
Number of Inputs 1
Input Signal Voltage signal*
ON signal: 4.5 to 25 V DC
OFF signal: within 1 V DC
Minimum ON time 50 ms
Demand alarm release (when demand measurement is specified)
Function Cancels demand alarm.
Number of Inputs 1
Input Signal Voltage signal*
ON signal:4.5 to 25 V DC
OFF signal: within 1 V DC
Minimum ON time 50 ms
* A special order can be placed for no-voltage contact.
7
<<Contents>> <<Index>>
All Rights Reserved. Copyright © 2006, Yokogawa Electric Cor poration GS 77C01E01-01E 5th Edition Dec. 10, 2008-00
Analog Output Specifications (When Analog Output is Specified)
Function Converts measurement data into DC current for output.
Measurement Item for Output
One item selected from active power, reactive power, apparent power, voltage (1 to 3), current (1 to 3),
power factor, and frequency
Output Signal 4 to 20 mA DC
Output Accuracy Measurement accuracy of measurement item for output (0.5% of F.S.)
Allowable Load Resistance
0 to 600
Response speed 2 seconds or less (until 1% of the final value is reached)
Setting Item Measurement item for output and the lower and upper limits of scaling.
Initial value: active power (W), lower limit of scaling: 50% (0 W), upper limit of scaling: 100% (maximum value of
the input measuring range W)
Scaling setting condition: upper limit of scaling lower limit of scaling 50%
Active power rated power (W) to rated power (W)
Reactive power rated power (var) to rated power (var)
Apparent power 0 to rated power (VA)
Voltage (1 to 3) 0 to voltage range (V)
Current (1 to 3) 0 to current range (A)
Power factor (LEAD)0.5 to 1 to (LAG)0.5
Frequency 45 to 65 (Hz)
Setting Range of
Lower/Upper Limits
of Scaling According to
Measurement Item
for Output
Pulse Output Specifications (When Pulse Output is Specified)
Function Outputs pulses proportional to energy.
Measurement Item for Output
One item selected from active energy, regenerative energy, reactive energy (LEAD, LAG), and apparent energy
Number of Outputs 1
Output Signal Open collector
Contact Capacity 30 V DC at 200 mA
Pulse Unit 0.1 to 5000.0 kWh/pulse* (set in 100 Wh increments)
Setting Item Measurement item for output, pulse unit, and ON pulse width
Initial value: active energy (kWh), pulse unit: 1 kWh/pulse, and ON pulse width: 50 ms
ON Pulse Width Represents the ON time of pulses to be output. (Set the pulse width so that the maximum ON pulse width obtained
by the following equation is not exceeded.)
Within the range of 10 to 1270 ms (set in 10 ms increments)
Maximum ON pulse width (ms) = Pulse unit [kWh/pulse]* 3600 10002
Secondary rated power [W] VT ratio CT ratio 1.2 2
* The units are kvarh/pulse for reactive energy and kVAh/pulse for apparent energy.
Demand Alarm Output Specifications (When Demand Measurement is
Specified)
Function
Output Signal
Contact Capacity
Alarm Release Function
Outputs an alarm if the measured demand value exceeds the set demand alarm point.
Open collector
30 V DC at 200 mA
Automatic release: Cancels the alarm if demand falls below the demand alarm point when the next measurement is
performed.
Manual release*: Holds the status of an alarm that occurred once. Cancels the alarm by digital input or the operation
key, or via communication.
* Refer to “Demand alarm release” of the Digital Input Specifications.
8
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<<Contents>> <<Index>>
GS 77C01E01-01E 5th Edition Dec. 10, 2008-00
Communication Specifications
RS-485 communication
Maximum communication distance: 1200 m
Maximum number of slave stations to be connected: 31
PC
Station number 01 Station number 02 Station number 31
Example:
Function RS-485 communication enables you to use the command/response method to read a variety of measurements and
write various settings.
Protocol PC link (with checksum, without checksum), Modbus (RTU, ASCII), PR201 original
(Note 1)
Transmission Distance Approx. 1200 m maximum (when 24 AWG twisted-pair cable is used)
Connection Method Multi-drop connection (a maximum of 32 units [including a higher-level device])
Station Number 01 to 99 (maximum number of units to be connected: 31 [number of units that can be connected to a PC etc.])
(Setting range: 01 to 31 is recommended)
Transmission Method Half-duplex communication
Synchronization Method Start-stop synchronization
Baud Rate 19200, 9600, and 2400 bps
Xon/Xoff Control None
Data Format Data length 8 bits, 7 bits
Parity None, even, odd
Stop bit 1 bit, 2 bits
For details, refer to the users manual for communications of each device to be connected.
(Note 1) The settings cannot be written.
Example of Connection Diagram
(SG)
(SG)(SG)
(B)(A)(B)(A)
(FG)
Terminator
RS-485RS-485RS-485
Approx. 1200 m maximum (31 units maximum)
PC
ML2
RS-232C/RS-485
Converter
(Yokogawa)
RS-232C
straight
cable
PR300 PR300 PR300
Notes:
The PR300 employs a two-wire system for RS-485 communication.
SG: The SG terminal is connected to match the signal level of the RS-485 communication line.
FG: All shielded wires must be connected and then grounded at one place to provide noise protection for
RS-485 communication lines.
120 (built-in)
(A)
(TERM)
(SG)
(B)
* 120 (external resistor)
Use the external resistor
without using the built-in
resistor of ML2.
(A)
(B)
*
9
<<Contents>> <<Index>>
All Rights Reserved. Copyright © 2006, Yokogawa Electric Cor poration GS 77C01E01-01E 5th Edition Dec. 10, 2008-00
Ethernet communication (when the Ethernet communication function is specified)
Ethernet
LAN
connection
HUB
Station number 01
IP address: 192.168.1.2 Station number 01
IP address: 192.168.1.3 Station number 01
IP address: 192.168.1.4 Station number 01
IP address: 192.168.1.5
Example:
PC
IP address: 192.168.1.1
Application layer
Transport layer
Network layer
Data link layer
Physical layer
MODBUS/TCP
TCP, UDP
IP, ICMP, ARP
Ethernet
10BASE-T/100BASE-TX
Higher-level device
(PC etc.)
MBAP Header
PDU
Function code Data
Byte No 0 1 2 3 4 5 6
Description
Transaction ID
Protocol ID
Number of bytes
Unit ID
Function Ethernet communication enables you to use the command/response method to read
a variety of measurements and write various settings.
The PR300 can be connected to IEEE802.3-compliant networks
(10BASE-T/100BASE-TX).
Communication
Protocol Modbus/TCP
Specifications
Access Control CSMA/CD
Baud Rate 10 Mbps/100 Mbps
Maximum Segment Length 100 m (distance between the hub and module)
Maximum Connecting
Maximum of 4 levels of cascading (for 10BASE-T) or maximum of 2 levels of cascading (for 100BASE-TX)
Configuration
(Number of hubs that can be cascade connected)
IP Address IP addresses can be set using the operation keys on the front of the PR300.
Code
Function
Description
03
Reads data from multiple D registers
Capable of reading data from up to 64 registers continuously.
06
Writes data into D register
Capable of writing data into one register.
08
Performs loopback test
Capable of performing a communication test.
16
Writes data into multiple D registers
Capable of writing data into up to 32 registers continuously.
Overview of
The structure of Modbus/TCP protocol is as follows:
Modbus/TCP
Protocol
The Modbus Application Protocol Header(MBAP Header) is made of the following seven bytes:
Transaction ID:
Set any value for identifying the transaction. The PR300 returns a value received from a higher-level device as a response.
Protocol ID: Specify "0" for the Modbus/TCP protocol.
Number of bytes: Number of bytes after the unit ID (byte number 6)
Unit ID: The PR300 returns a value received from a higher-level device as a response.
For details, refer to the users manual for communications of each device to be connected.
Note: If Ethernet communication is used, the RS-485 communication interface is used specifically for the Ethernet-serial gateway function.
Therefore, it is not possible for a higher-level device such as a PC to access the PR300 via the RS-485 communication interface.
Ethernet-
Serial Gateway
Function
The Simple Protocol Data Unit (PDU) is
the same as Modbus/RTU (Modbus
protocol via serial communication).
RS-485 communication
Protocol Modbus/RTU
Baud Rate
9600 bps
Parity Even, odd, or none
Stop Bit 1 bit
Data Length 8 bits
The PR300 has an RS-485 communication terminal in
addition to an Ethernet communication connector.
Modbus/TCP commands received by Ethernet are relayed
to the RS-485 terminal. This enables the PR300 to connect
to a device with an RS-485 communication function
(Modbus/RTU protocol) via a network.
Modbus/TCP
Function
Higher-level device
IP address: 192.168.1.1 (arbitrary)
Ethernet 10BASE-T/100BASE-TX
Station number 01 (fixed)
IP address: 192.168.1.2
(arbitrary)
PR300
(with Ethernet communication
function)
RS-485 connection
Station number 02
(arbitrary) Station number 10
(arbitrary)
RS-485 serial
communication device
Power monitor of POWERCERT Series
Digital indicating controller of
GREEN Series
Signal conditioner of JUXTA Series
Example:
10
All Rights Reserved. Copyright © 2006, Yokogawa Electric Cor poration
<<Contents>> <<Index>>
GS 77C01E01-01E 5th Edition Dec. 10, 2008-00
Standard Performance
Accuracy Rating
Calculation Accuracy
Backup upon Power Failure
Insulation Resistance
Withstand Voltage
Impulse Withstand Voltage
Effects of Magnetic Field
Effects of Changes in Ambient
Temperature
Effects of Power Supply Voltage
Variations
Effects of Input Frequency
Power Supply
Power Consumption
Active energy/optional active energy (Wh)
Active power (W)
Voltage (V)
Current (A)
Frequency (Hz)
Demand
The value is calculated to an accuracy of ±1 digit from the measured value for reactive energy, apparent energy,
reactive power, apparent power, power factor or current*.
* Current is only for the 2.5 element measurement.
The last integrated values obtained immediately before the power failure are held for active energy,
regenerative energy, reactive energy, and apparent energy.
Between each of the voltage input, current input, power,
ground, digital input, pulse output, analog output, RS485
communication output, Ethernet communication output, and
alarm output terminals
Between each of the voltage input, current input, power, and
ground terminals:
Between (the voltage input, current input, power and ground
terminals) and the digital input, pulse output, analog output,
alarm output, RS-485 communication output, and Ethernet
communication output terminals:
Between each of the digital input, pulse output, analog output,
alarm output, and (RS-485 communication output, Ethernet
communication output) terminals:
Between the RS-485 communication output, and Ethernet
communication output terminals:
Between all of the voltage input, current input, and power terminals and the ground terminal:
Between all of the output and ground terminals and all of the voltage input and current input terminals:
6 kV (1.2/50s), 10 times for positive and negative
400 A/m or less Active power: ±0.5% of F.S. Voltage/Current: ±0.25% of F.S.
0.03%/°C for a temperature change rate of 10°C/h or less (when 0.05 In I I max, power factor = 1)
0.05%/°C for a temperature change rate of 10°C/h or less (when 0.1 In I I max, power factor = LAG 0.5)
In: rated current, I: present current input
Active power: ±0.25%, Voltage/Current: ±0.125%
(for variations within the power supply operating range (when 0.01 In and power factor = 1)) In: rated current
Active power: ±0.25%, Voltage/Current: ±0.125% (for variation of 45 to 65 Hz)
100-240 V AC ±10% (50/60 Hz) or 130-300 V DC ±15%
AC drive: 10 VA maximum, DC drive: 5 W maximum
±0.5%
(EN60687 accuracy: class 0.5 or equivalent)
±0.5% of F.S.
±0.25% of F.S. (voltage rms)
±0.25% of F.S. (current rms)
±0.5 Hz
±0.5%
100 M or more (at 500 V DC)
2500 V AC for 1 minute
2500 V AC for 1 minute
1000 V AC for 1 minute
500 V AC for 1 minute
Safety and EMC Standards
Safety Standards
Measurement category
Installation category
Rated measurement input
EMC-compliant Standards
Compliant with
IEC/EN61010-1
UL61010-1
CAN/CSA C22.2 No.61010-1-04 (C-UL Listed)
600V CAT. III
CAT. II
Pollution degree: 2 (IEC/EN61010-1)
Voltage input:
600V AC (between terminals)
Current input:
600V AC (across ground)
Compliant with EN61326
During testing, the instrument continues to operate at a measurement accuracy within the range of 20%.
Measurement Category
CAT.I
CAT.II
CAT.III
CAT.IV
Description
Circuits not directly connected to main power supply
Circuits directly connected to low-voltage facility
Circuits in building facilities
Supply sources to low-voltage facilities
Remarks
Home-use equipment, portable tools, etc.
Switchboards, circuit breakers, etc.
Overhead lines, cable systems, etc.
11
<<Contents>> <<Index>>
All Rights Reserved. Copyright © 2006, Yokogawa Electric Cor poration GS 77C01E01-01E 5th Edition Dec. 10, 2008-00
Environmental Conditions
Normal Operating Conditions
Warm-up time
Ambient temperature
Temperature change
Ambient humidity
Magnetic field
Continuous vibration
Short-time vibration
Shock
Installation
Mounting position
Installation altitude
Effects on Operating Conditions
Effects of ambient
temperature
Effects on supply
voltage variations
Transport and Storage Conditions
Temperature
Humidity
Shock and dropping of
package
At least 30 minutes
0 to 50°C (reference temperature: 23 2°C)
10°C/h or less
20 to 90% RH (no condensation)
400 A/m or less
10 to 60 Hz, 0.035 mm, 75 minutes
60 to 150 Hz, 4.9 m/s2, 75 minutes
14.7 m/s2 for 15 seconds or less
98 m/s2 or less (for shock time of 11 ms)
Indoor installation only
Vertical surface mounting only
2000 m or less
Analog output: 0.05% of F.S./°C or less
Analog output: 0.05% of F.S./°C or less
20 to 70°C
5 to 95% RH (no condensation)
90 cm (provided that an external packing
box is used)
Initial Settings (Time of Shipment)
The PR300 has the following initial settings at the
time of shipment. Settings can be modified after
delivery.
Setting Item
Phase and wire system
Voltage range
VT ratio
CT ratio
Integrated low-cut power
Station number
Protocol
Baud rate
Parity
Stop bit
Data length
IP address *1
Port number *1
Subnet mask *1
Default gateway *1
Measurement item for pulse output
Pulse unit
ON pulse width
Measurement item for analog output
Lower limit of scaling
Upper limit of scaling
Demand power/current
Demand period
Demand alarm mask time
Demand power alarm point
Demand current alarm point
Alarm release function
Indicator-out mode/indicator-out
mode wait time
Initial Value
Three-phase three-wire system
(for three-phase three-wire system)
Three-phase four-wire system
(for three-phase four-wire system)
300 V
1
1.00
0.05 %
01
PC link with checksum
9600 bps
None
1 bit
8 bits
192.168.1.1
502
255.255.255.0
0.0.0.0
Active energy (kWh)
1 kWh/pulse
50 ms
Active power (W)
50% (0 W)
100% (maximum value of the
input measuring range W)
Active power
30 minutes
1 minute
100 kW
100 A
Automatic release
Off/10 minutes
Other
Input
Pulse
Output *2
Communication
Analog
Output *
3
Demand
Measurement
*4
*1 When the Ethernet communication function is specified
*2 When pulse output is specified
*3 When analog output is specified
*4 When demand measurement is specified
Mounting and Shape
Casing: polycarbonate resin (PC), UL94 V-0
Terminal block: polybutylene terephthalate (PBT),
UL94 V-0
Terminal cover: polyamide resin (PA6), UL94 V-2
Panel mounting (refer to Panel Cutout
Dimensions)
M3 screws for terminal connections:
analog output, pulse output, demand alarm output,
digital input, and RS-485 communication
M4 screws for terminal connections:
voltage/current input and power supply
RJ45 connection: Ethernet communication
110(H) 110(W) 128(D) mm or
96(H) 96(W) 126(D) mm
Approx. 600 g (when the accessories such as
mounting bracket are attached)
Materials
Mounting Method
Connection Method
External Dimensions
(including a terminal cover)
Weight
Accessories
JIS/ANSI-mounting kit
DIN-mounting bracket
Dust cover (with a screw)
Terminal cover (with screws)
Shorting bar (for RS-485 communication termination)
Tag number label
1 set
2
1
1
1
2
Power Items and Equations
Single-phase
two-wire system
Single-phase
three-wire
system
Three-phase
three-wire
system
Three-phase
four-wire system
Three-phase
four-wire system
(2.5 element)
Apparent Power
Phase and Wire
Syatem
Power Factor
VA= VA
VAi= ViAi
i=1, 2
VA= VA1+VA2
VAi= ViAi
i=1, 2, 3
VA= VA1+VA2+VA3
VAi= ViAi
i= 1, 3
VA= 3 /2(VA1+VA3)
VAi= ViAi
i= 1, 3
VA= 3 /2(VA1+VA3)
Reactive Power
(without using reactive
power meter method)
P/VA
(without using
reactive
power meter
method)
(V and A are rms values)
* For distorted wave input, there may be differences between the PR300 and a
measuring instrument that uses a different measurement principle.
Qi= ( 3 /2(VAi)
2
Pi
2
)
i= 1, 3
Q = Q1+Q3
Qi= ((VAi)
2
Pi
2
)
i= 1, 2
Q = Q1+Q2
Qi= ((VAi)
2
Pi
2
)
i= 1, 3
Q = Q1+Q3
Qi= ((VAi)
2
Pi
2
)
i= 1, 2, 3
Q = Q1+Q2+Q3
Q= ((VA)
2
P
2
)
12
All Rights Reserved. Copyright © 2006, Yokogawa Electric Cor poration
<<Contents>> <<Index>>
GS 77C01E01-01E 5th Edition Dec. 10, 2008-00
Connection Diagrams
A phase and wire system can be selected by specifying the parameters.
If measurement input does not exceed 600 V AC or 5A AC, direct input without using a VT or CT is possible. Do not
ground the input circuit when a VT or CT is not used. Perform wiring for the voltage and current in the same circuit.
Single-phase two-wire system
1
23
45
67
89
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
12
K
LCT
k
l
VT
U
V
u
v
1L
1S
P1
P2
Power-source side
Load side
Fuse
Analog output
Output signal:
4 to 20mA DC
12
11
Pulse output
Contact capacity:
30V DC, 200mA
14
13
LED
LED
RS-485 communication*
1
RS-485
A
R: 120 (built-in)
TERM
B
SG
19
20
18
17
R
Contact capacity:
30V DC, 200mA
(resistive load)
Demand alarm output
ALM
ALM
16
15
Power supply
Operating range:
100-240V AC 10% or
130-300V DC 15%
Optional integration control signal
or demand alarm release
*
2
Voltage signal
ON signal: 4.5 to 25V DC
OFF signal: within
1V DC
L
N
PE
25
24
23
Power supply
DI
DI
22
21
RJ45 connector
10BASE-T/100BASE-TX
Ethernet communication
Link LED (top)
Color
Description
Off Stopped
Orange
10Mbps
Green 100Mbps
Color
Description
Off Stopped
Orange
Half duplex
Green
Full duplex
Active LED (bottom)
Switching between 10BASE-T and 100BASE-TX takes place automatically.
Switching between half duplex and full duplex takes place automatically.
*1: If Ethernet communication is used, the RS-485 communication
interface is used specifically for the Ethernet-serial gateway function.
*2: If demand measurement is specified, the demand alarm release is selected.
CAUTION
Screws marked with
are an essential part
of the structure. For safety reasons, do not
touch them.
18
17
When terminating on wiring,
short-circuit terminals and .
13
<<Contents>> <<Index>>
All Rights Reserved. Copyright © 2006, Yokogawa Electric Cor poration GS 77C01E01-01E 5th Edition Dec. 10, 2008-00
Single-phase three-wire system
1
23
45
67
89
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
1N2
K
LCT K
LCT
VT
k
lk
l
1L
1S
2L
2S
P0
P2
P1
U
U
V
V
u
u
v
v
Power-source side
Load side
Fuse
Analog output
Output signal:
4 to 20mA DC
12
11
Pulse output
Contact capacity:
30V DC, 200mA
14
13
LED
LED
RS-485 communication*
1
Contact capacity:
30V DC, 200mA
(resistive load)
Demand alarm output
ALM
ALM
16
15
Power supply
Optional integration control signal
or demand alarm release
*
2
Voltage signal
ON signal: 4.5 to 25V DC
OFF signal: within
1V DC
L
N
PE
25
24
23 Power supply
DI
DI
22
21
RJ45 connector
10BASE-T/100BASE-TX
Ethernet communication
Link LED (top)
Color
Description
Off Stopped
Orange
10Mbps
Green 100Mbps
Color
Description
Off Stopped
Orange
Half duplex
Green
Full duplex
Active LED (bottom)
Switching between 10BASE-T and 100BASE-TX takes place automatically.
Switching between half duplex and full duplex takes place automatically.
*1: If Ethernet communication is used, the RS-485 communication
interface is used specifically for the Ethernet-serial gateway function.
*2: If demand measurement is specified, the demand alarm release is selected.
CAUTION
Screws marked with
are an essential part
of the structure. For safety reasons, do not
touch them.
18
17
When terminating on wiring,
short-circuit terminals and .
RS-485
A
R: 120 (built-in)
TERM
B
SG
19
20
18
17
R
Operating range:
100-240V AC 10% or
130-300V DC 15%
Three-phase three-wire system
1
23
45
67
89
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
123
K
LCT K
LCT
VT
A
(R) B
(S) C
(T)
k
lk
l
1L
1S
3L
3S
P1
P3
P2
U
U
V
V
u
u
v
v
Power-source side
Load side
Fuse
Analog output
Output signal:
4 to 20mA DC
12
11
Pulse output
Contact capacity:
30V DC, 200mA
14
13
LED
LED
RS-485 communication*
1
Contact capacity:
30V DC, 200mA
(resistive load)
Demand alarm output
ALM
ALM
16
15
Power supply
Optional integration control signal
or demand alarm release
*
2
Voltage signal
ON signal: 4.5 to 25V DC
OFF signal: within
1V DC
L
N
PE
25
24
23
Power supply
DI
DI
22
21
RJ45 connector
10BASE-T/100BASE-TX
Ethernet communication
Link LED (top)
Color
Description
Off Stopped
Orange
10Mbps
Green 100Mbps
Color
Description
Off Stopped
Orange
Half duplex
Green
Full duplex
Active LED (bottom)
Switching between 10BASE-T and 100BASE-TX takes place automatically.
Switching between half duplex and full duplex takes place automatically.
*1: If Ethernet communication is used, the RS-485 communication
interface is used specifically for the Ethernet-serial gateway function.
*2: If demand measurement is specified, the demand alarm release is selected.
CAUTION
Screws marked with
are an essential part
of the structure. For safety reasons, do not
touch them.
18
17
When terminating on wiring,
short-circuit terminals and .
RS-485
A
R: 120 (built-in)
TERM
B
SG
19
20
18
17
R
Operating range:
100-240V AC 10% or
130-300V DC 15%
14
All Rights Reserved. Copyright © 2006, Yokogawa Electric Cor poration
<<Contents>> <<Index>>
GS 77C01E01-01E 5th Edition Dec. 10, 2008-00
Three-phase four-wire system
1
23
45
67
89
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
N1
A
(R) B
(S) C
(T)
23
K
LCT
K
LCT
K
LCT
VT
k
lk
lk
l
1L
1S
2L
2S
3L
3S
P0
P1
P2
P3
U
U
V
u
u
Uu
v
Vv
Vv
Power-source side
Load side
Fuse
Analog output
Output signal:
4 to 20mA DC
12
11
Pulse output
Contact capacity:
30V DC, 200mA
14
13
LED
LED
RS-485 communication*
1
Contact capacity:
30V DC, 200mA
(resistive load)
Demand alarm output
ALM
ALM
16
15
Power supply
Optional integration control signal
or demand alarm release
*
2
Voltage signal
ON signal: 4.5 to 25V DC
OFF signal: within
1V DC
L
N
PE
25
24
23
Power supply
DI
DI
22
21
RJ45 connector
10BASE-T/100BASE-TX
Ethernet communication
Link LED (top)
Color
Description
Off Stopped
Orange
10Mbps
Green 100Mbps
Color
Description
Off Stopped
Orange
Half duplex
Green
Full duplex
Active LED (bottom)
Switching between 10BASE-T and 100BASE-TX takes place automatically.
Switching between half duplex and full duplex takes place automatically.
*1: If Ethernet communication is used, the RS-485 communication
interface is used specifically for the Ethernet-serial gateway function.
*2: If demand measurement is specified, the demand alarm release is selected.
CAUTION
Screws marked with
are an essential part
of the structure. For safety reasons, do not
touch them.
18
17
When terminating on wiring,
short-circuit terminals and .
RS-485
A
R: 120 (built-in)
TERM
B
SG
19
20
18
17
R
Operating range:
100-240V AC 10% or
130-300V DC 15%
Three-phase four-wire system (2.5 element)
1
23
45
67
89
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
Power-source side
N1
A
(R) B
(S) C
(T)
23
K
LCT
K
LCT
K
LCT
Load side
Fuse
VT
k
lk
lk
l
1L
1S
2L
2S
3L
3S
P0
P1
P3
U
V
u
Uu
v
Vv
Analog output
Output signal:
4 to 20mA DC
12
11
Pulse output
Contact capacity:
30V DC, 200mA
14
13
LED
LED
RS-485 communication*
1
Contact capacity:
30V DC, 200mA
(resistive load)
Demand alarm output
ALM
ALM
16
15
Power supply
Optional integration control signal
or demand alarm release
*
2
Voltage signal
ON signal: 4.5 to 25V DC
OFF signal: within
1V DC
L
N
PE
25
24
23
Power supply
DI
DI
22
21
RJ45 connector
10BASE-T/100BASE-TX
Ethernet communication
Link LED (top)
Color
Description
Off Stopped
Orange
10Mbps
Green 100Mbps
Color
Description
Off Stopped
Orange
Half duplex
Green
Full duplex
Active LED (bottom)
Switching between 10BASE-T and 100BASE-TX takes place automatically.
Switching between half duplex and full duplex takes place automatically.
*1: If Ethernet communication is used, the RS-485 communication
interface is used specifically for the Ethernet-serial gateway function.
*2: If demand measurement is specified, the demand alarm release is selected.
CAUTION
Screws marked with
are an essential part
of the structure. For safety reasons, do not
touch them.
18
17
When terminating on wiring,
short-circuit terminals and .
RS-485
A
R: 120 (built-in)
TERM
B
SG
19
20
18
17
R
Operating range:
100-240V AC 10% or
130-300V DC 15%
15
<<Contents>> <<Index>>
All Rights Reserved. Copyright © 2006, Yokogawa Electric Cor poration GS 77C01E01-01E 5th Edition Dec. 10, 2008-00
External Dimensions
ANSI 4-inch round form size (when a bezel is attached)
2-M5
23
22
2104.5
(126.5) (109)
110
110 109
1.5
Bezel
(for ANSI-mounting)
Terminal cover
Dust cover
1 to 10
(Acceptable panel thickness for mounting)
Unit: mm
<Panel Cutout Dimensions>
ø101.6
(ø4.000)
ø7.9
(ø0.312)
160 min.
(6.299 min.)
160 min.
(6.299 min.)
42.9±0.4
(1.688±0.015)
42.9±0.4
(1.688±0.015)
Multiple Mounting
ANSI
42.9±0.4
(1.688±0.015)
42.9±0.4
(1.688±0.015)
Unit: mm
(approx. inch)
Normal Allowable Deviation= ±(Value of JIS B 0401-1999 tolerance grade IT18)/2
16
All Rights Reserved. Copyright © 2006, Yokogawa Electric Cor poration
<<Contents>> <<Index>>
GS 77C01E01-01E 5th Edition Dec. 10, 2008-00
DIN 96-square instrument size
109
12.3
112.2
(124.5) (109)
96
110
96
1.5
Terminal cover
Mounting bracket
2 places
1 to 10
(Acceptable panel
thickness for mounting)
Dust cover
Unit: mm
<Panel Cutout Dimensions>
92 (68)
Min. 160
92
(68) Min. 160
+0.8
0
+0.8
0
Unit: mm
Normal Allowable Deviation= ±(Value of JIS B 0401-1999 tolerance grade IT18)/2
Subject to change without notice.