Mkd-itf – CIRCUTOR MKD Series User Manual

MKD-ITF

M98223701-03-10A

5.2.- Communication protocol

The

MKD-ITF

meter

uses

the

MODBUS

RTU©

communication protocol and the RS485 network protocol.
The formulated as follows:

COMMAND: NPFTAAAANNNN CRC

PN:

1 Byte

Peripheral number

FT:

1 Byte

Function 04 Reading of n Words

AAAA:

2 Byte

Address of the 1st record

NNNN:

2 Byte

Number of records to request

CRC:

1 Byte

Cyclic Redundancy Checking

In the Modbus records, the energy is accumulated in
kW·h x 100 (to 2 decimal places) with a length of 2
Words.

To read the status of the inputs, make the following Modbus
request:

Rx: NP0100140002CRC
Tx: NP0101XXCRC
XX is the response byte.

Inputs activated

Response byte (XX)

None

03

Input 1

02

Input 2

01

All

00

5.3.- Map of MODBUS RTU© memory

VALUE

REC.

Active energy +

00-01

Active energy -

02-03

Inductive reactive energy +

04-05

Capacitive reactive energy -

06-07

Inductive reactive energy -

08-09

Capacitive reactive energy +

0A-0B

Tariff 1

Active energy +

0C-0D

Active energy -

0E-0F

Inductive reactive energy +

10-11

Capacitive reactive energy -

12-13

Inductive reactive energy -

14-15

Capacitive reactive energy +

16-17

Tariff 2

Active energy +

18-19

Active energy -

1A-1B

Inductive reactive energy +

1C-1D

Capacitive reactive energy -

1E-1F

Inductive reactive energy -

20-21

Capacitive reactive energy +

22-23

Tariff 3

Active energy +

24-25

Active energy -

26-27

Inductive reactive energy +

28-29

Capacitive reactive energy -

2A-2B

Inductive reactive energy -

2C-2D

Capacitive reactive energy +

2E-2F

Partial

Partial active energy +

30-31

Partial active energy -

32-33

Partial inductive reactive energy +

34-35

Partial inductive capacitive energy -

36-37

Partial inductive reactive energy -

38-39

Partial inductive capacitive energy +

3A-3B

Inputs

Meter IN1

3C-3D

Meter IN2

3E-3F

5.4.- Description of communications

One or more MKD-ITF meters can be connected to a
computer or PLC. This system makes it possible to
centralise the data in one single record point, in addition
to the normal running of each of them.

The

MKD-ITF

has

an

RS-485

type

serial

communication output. When you connect more than
one analyser to an RS-485 communication bus, you

need to assign a peripheral address (from 01
to 255) to each of them, so that the master
(computer or PLC) can send the requests of
the different records measured or calculated
to these addresses.
The RS-485 connection is made with twisted
pair communication cable with mesh shield, a
minimum of three wires and a maximum
distance between the master and the last unit
of 1,200 metres. Up to 32 units can be
connected in this RS485 series bus.

5.5.- Connections with network converters

Description of how to connect the RS485 bus,
for

communication

through

Intelligent

Converter

(RS485-RS232)

or

through

Ethernet

Converter

(Transparent/Modbus/TCP).

MKD-ITF-RS485-

I2-C2

M33011

Intelligent
Converter

M54020

Ethernet

Converter

M54031 / M54032

TERMINALS

RS485

TERMINALS

RS485

TERMINALS

RS485/RS232

Terminal 6 A (+)

1 / A

A

Terminal 4 B (-)

2 / B

B

Terminal 5 (GND)

5 / GND

S

6.-

DISPLAY

The display of the MKD-ITF energy meter is
divided into two display areas: the first (in the
upper part) shows the value of the active
energy meters and the second (in the lower
part) shows the inductive or capacitive
reactive energy measurement. These meters
show the partial energy of each of the
energies when the code (part) appears on
the display.

7.-

DESCRIPTION OF DISPLAY ICONS

- L1-L2-L3

shows that the unit has rated voltage in each of the phases; if in one of them there is no rated voltage, the identification corresponding to

this phase disappears.

- T1 T2 T3

identification only available in the type MKD-ITF-RS485-I2-C2:; this shows the tariff selected at that exact moment, independently of the

tariff displayed in the upper part.

- The symbol

indicates that the nature of the load is inductive; the symbol

indicates that the nature of the load is capacitive.

- The symbol

indicates that the meter is in the first and fourth quadrant (consumption); the symbol

indicates that the meter is in the second

and third quadrant (generation).

8.-

TECHNICAL SPECIFICATIONS

Power circuit:
- Biphase (L1-L2):
- Frequency:
- Maximum consumption:
Voltage V

f-f

<300V

Voltage V

f-f

≥300V

- Working temperature:
- Humidity (non-condensing):

Type AC
110V – 500Vac (through the measurement
itself)
45…65 Hz

2W – 3VA
2W – 20VA
-20ºC ….+ 60ºC
5% .. 95%

Specifications of pulse outputs transistors:
- Type: Transistor opto-insulated (collector open):
- Maximum switching voltage:
- Maximum switching current:
- Maximum frequency:
- Pulse duration:
Connections

NPN
24 Vdc,
50 mA
5 pulses/second
100 ms
Terminal 1: output 1
Terminal 2: Common
Terminal 3: output 2

Inputs specifications (type of input):

Voltage-free

Metering circuit:
- Nominal voltage:
- Frequency:
- Nominal current:
- Permanent overload:
- Minimum current:

Energy meter upper limit

289Vac

f-n

/ 500Vac

f-f

45…65 Hz
40 A
120 A
160 mA

9,999,999 kWh

Mechanical characteristics:
Box material:
- Fitted unit protection (frontal):
- Non-fitted unit protection (sides and rear cover):
- Dimensions (mm) / weight (g):
- Maximum diameter of cable entrance (mm):

V0 self-extinguishing plastic
IP 51
IP 31
105x90x73 mm / 410 g
11

Class/Accuracy:
- Active energy:
- Reactive energy:

Class 1 – 62053-21
Class 2 – 62053-22

Standards: EN62052-11, EN62053-21, EN62053-23, EN61010-1

Safety:Class II / EN61010-1 Double-insulated electric shock protection class II

9.-

TECHNICAL SERVICE

If you have any doubts about the running of the unit or any faults, contact our service staff at CIRCUTOR S.A.

CIRCUTOR S.A. – AFTER-SALES SERVICE

Teléfono: +34 937452900

Vial Sant Jordi, s/n

web:

www.circutor.com

08232 - Viladecavalls (Barcelona)

e-mail:

[email protected]