This website is using cookie files for provision of services, personalization of advertising and for analysing of visit rate.
By using this site you agree to our use of cookies. More information

measuring instruments
English Česky USA Polski Sweden Africa Magyar Español China Français

Battery operated 16 input-channel datalogger with Ethernet interface
Multilogger

Multilogger
4 inputs
Temperature/ relative humidity probe DigiS/M.
Temperature/relative humidity probe DigiL/M on the cable.
Removable probe holder.
Measured values are shown on the graphical screen with backlight option and the ability to change the size of displayed digits.
Optional cable length 1, 2, 5, 10, 15 metres.
The device can be set from the keypad. You can set a password to prevent unauthorized access to the device settings.
Built-in audio alarm.
To communicate with a PC and other systems, the device is equipped with a USB port (located on the side of the device), RS232 and Ethernet.
- send an email when an alarm state starts or ends
- use DATALINK: display current values or download values from
device memory to your PC - view current measured values using your web browser
- third-party applications to read the actual measured values using
universal protocols SNMPv1 and XML - send data to COMET DATABASE software which contains many useful tools for data analysis - graphs, tables, statistics, etc.
Internal atmospheric pressure and / or CO2 concentration sensors.
Battery and mains power supply.
Measured values are stored internally in non-volatile memory.
Alarm indication by LEDs or graphical display.

Main features

  • up to 6 hardware inputs for measuring and recording, 16 virtual channels
  • - temperature
  • - humidity
  • - dew point
  • - atmospheric pressure
  • - current 0 - 20 mA and voltage 0 - 10 V (-60 to 140 mV)
  • - two-state events
  • - pulses
  • - CO2
  • memory for 1 million values
  • indication of alarm conditions via
  • - e-mail
  • - SMS
  • - integrated acoustic siren LEDs
  • - stwo-state output to control other devices
  • analytical software for data processing and configuration - Comet Vision
  • communication interfaces - USB, RS232 and Ethernet (SNMPv1 and XML)

4 inputs

All models have 4 input connectors for external probes or signals. These may be supplemented by an internal atmospheric pressure transducer and / or CO 2 sensor.

temperature probes

Temperature probes Pt1000 (serie xxx/M)

Temperature/relative humidity probes with digital output (serie DIGI)

sensors

Sensors with bipolar output voltage and a range of- 60 to + 140 mV (heat flux sensors, etc.)

devices with two-state output

Devices with two-state output (monitoring of machine run, door open/ close, etc.)

Device with pulse output (gas and water meters, counter pieces on a production line, etc.)

Evaluation of up to 16 variables

Up to 16 variables may be calculated from the four connected probes / sensors. (This is the sum of the measured and calculated values). The calculated values can be:

- a further expression of moisture (dew point temperature, absolute humidity, specific humidity, mixing ratio, specific enthalpy)

- the result of inter-channel conversions
(eg. the difference of two connected temperature probes)

Alarm limits

It is possible to set two independent alarm limits for each channel (ie. measured or calculated value) which can be configured either as an upper and lower limit or two limits exceeding in a consistent direction. Alarm signalization can be acoustic (built-in beeper), optical (3 LEDs), alarm output or sending an e-mail alert.

Power supply

Power is provided from an external AC adapter, and operation of the device (except Ethernet interface) is backed up by replaceable batteries. The device can be used permanently installed or as portable device with the option to charge batteries directly using the AC adapter or using standard alkaline batteries size AA. Battery life is several months.

Batteries

Variable 16 input-channel datalogger
Monitoring system

Variable 16 input-channel datalogger

Main features

  • software configurable or modular inputs for
  • - temperature sensors Pt and Ni
  • - thermocouples and thermistors
  • - voltage and current
  • - two-state events
  • - frequency and pulses
  • - resistance
  • - sensors with RS485 output
  • memory for 500 000 records with automatic downloading to PC
  • alarm indication via integrated siren,
  • e-mail, SMS and two-state output to control other devices
  • software for data analysis on PC
  • communication interface USB, RS232, relays, RS485 (Modbus RTU),
  • ETHERNET (Modbus TCP, SOAP, etc.)

Monitoring systems MS - models and variations

MS6D and its variations

Each Monitoring System contains 16 software configurable inputs.

MS6D and its variations

MS55D

The user can select the hardware modules to be fitted into the monitoring system MS.

MS55D

MS6-Rack - For mounting to 19“ rack

MS6-Rack - For mounting to 19“ rack
MS6-Rack - For mounting to 19“ rack

MS6R - MS6R - For deskopt use

MS6R - MS6R - For deskopt use
main differences MS6D MS55D
inputs 16 software programmable inputs 1 - 16 hardware input modules
maximum measured DC current 20 mA dc 5 A dc
maximum measured DC voltage 10 V dc 75 V dc
most sensitive measuring range of dc voltage 18 mV dc 100 mV dc
maximum measured AC current - 5 A dc
maximum measured AC voltage - 50 V ac
input for measurement of frequency - 0 to 5 kHz
input for counting of pulses - Yes

Recording

Recorded values are stored to a non volatile electronic memory.

Various options for data recording

In addition to continuous recording mode with a constant interval can also enjoy a variety of other options. You can record data with its own interval only when certain conditions are valid, which may depend on measured values , time or direct user intervention. For example, you can control recording via an external contact or it is possible to set faster sampling mode during alarm conditions.

In case of power failure

In the event of a power failure, the backed up datalogger will continue to measure. Recorded data contains date and time of power failure. If the data logger is connected to GSM modem, the operator is immediately aware of difficulties.

Alarms and Communication interfaces

Measuring and recording system MS has been developed to meet all requirements for the possibility of alarming. Each of the 16 channels offers setting of hysteresis, a delay and up to four conditions to active alarm. Alarm can be presented as sound (buzzer) and as visual signal (LED 1-32). For each alarm you can assign actions to be performed.
  • Alerts via:

  • » External siren or lights
  • re
  • » Email messages
  • » SMS texts via connected
  •    GPRS modem or router
  • » Telephone dialer
data logger

Relay on

Monitoring system MS activates selected relays (integrated relay ALARM OUT or external relays module) depending on alarm states.You can combine up to 16 switching external relay depending on arisen conditions. One of these conditions can be controlled via SMS messages.

Communication through GSM modem, GPRS / EDGE router

Modems can be used to set up a monitoring system MS, reading the recorded data, reading the current values and to communicate via SMS messages. The offered modems have been thoroughly tested to ensure maximum reliability.

Alerts via SMS texts

All data loggers are equipped with RS232 interface. GSM modem (GPRS router)
can be connected to that port for transmitting alarm SMS texts. Up to four phone numbers can be set. Using text messages
can also read the current values .

Email messages

Because of Ethernet interface you
can expand communication possibilities of measuring system MS. Then alarm emails are sent directly to your email inbox.
You can also read the current data via web browser.

Common connectivity options

Monitoring system MS may be configured for almost any desired measurement application. Sensors can be wired to datalogger in star-like connection as well as in serial. Combination of both is also possible. The monitoring system MS is characterized by a wide range of communication interfaces such as the RS232, RS485, USB, Ethernet and GSM or GPRS modem. Thanks to Wi-Fi routers several measuring systems MS can be wirelessly connected to a network.
scheme

Parameters of conf gurable inputs MS6D

Each Monitoring System contains 16 software configurable inputs from user PC. Also signals from sensors working on RS485 bus with ModBus or Advantech protocol can be recorded. RS485 input is available as optional accessory.

Measured values

Range

Accuracy

Note

DC

4 to 20 mA

±0.1% FS (±0.02 mA)

it is possible to connect pasive sensors (powered by monitoring

system) or active sensor with its own power supply. Input

resistance about 110 Ohms.

DC

-10 V to+10 V

±0.1% FS (±10 mV)

Input resistance about 10 MOhms

-1 V to +1 V

±0.1% FS (±1 mV)

-100 mV to +100 mV

±0.1% FS (±100 uV)

-18 mV to +18 mV

±0,1% FS (±18 uV)

two-wire resistance

Measurement

0 to 300 Ohms

±0.1% FS (±0.3 Ohms)

measuring current approximately 0.8 mA @ 50 ms pulse

0 to 3000 Ohms

±0.1% FS (±3 Ohms)

measuring voltage approximately 0.5 mA @ 50 ms pulse

0 to 10000 Ohms

±0.1% FS (±10 Ohms)

measuring current approximately 0.1 mA @ 50 ms pulse

Ni1000

-50 °C to +250 °C

±0.2 °C (-50 °C to 100 °C)

Ni1000/6180 ppm, two-wire connection

±0.2 % MV (100 °C to 250 °C)

measuring current approximately 0.5 mA @ 50 ms pulse

Pt100

-200 °C to +600 °C

±0.2 °C (-200 °C to+100 °C)

Pt100/3850 ppm, two-wire connection

±0.2 % MV (+100 °C to +600 °C)

measuring current approximately 0.8 mA @ 50 ms pulse

Pt1000

-200 °C to +600 °C

±0.2 °C (-200 °C to+100 °C)

Pt1000/3850 ppm, two-wire connection

±0.2 % MV (+100 °C to +600 °C)

measuring current about 0.5 mA @ 50 ms pulse

K (NiCr-Ni)

-200 °C to 1300 °C

±(0.3 % MV +1.5 °C) MS6D only

linearized, with cold junction compensation, datalogger must

be placed in recommendend working position

T (Cu-CuNi)

-200 °C to 400 °C

J (Fe-Co)

-200 °C to 750 °C

S (Pt10 % Rh-Pt)

0 to 1700 °C

N (NiCrSi-NiSiMg)

-200 °C to 1300 °C

B (Pt30 % Rh-Pt)

100 °C to 1800 °C

linearized, without cold junction compensation

NTC with selectable

Formula

up to maximum thermistor

resistance 11000 Ohms

according to the used resistance

range (see measurement of resistance)

the same characteristics for all connected thermistors

default settings: R25=2252 Ohms, R80 = 282.7 Ohms

potential-less contact

binary signal

input voltage for state „L“ (IN-COM) < 0.8 V

input voltage for state „H“ (IN-COM) > 2 V

open collector

resistance of closed contact for state „L“ (IN-COM) < 1 kOhms

voltage levels

resistance of open contact for state „H“ (IN-COM) >

10 kOhms“

minimum duration for sensing of change: 200 ms

input for serial signal

RS485

on request

input serves for reading from devices supporting protocol Mod-

Bus RTU or Advantech

connected to terminals next to terminals for channel

15 and 16

input can work with 16 devices

galvanically isolated

Parameters of inputs MS55D

The user can select the hardware modules to be fitted into the monitoring system MS. The modular design gives you the freedom to start with several input modules and to expand the system later on.

Measured values

Module types

Range

Accuracy

Notes

DC

A0

4 to 20 mA

±0.1 % FS

with source approximately 21V for two-wire transducers with

current loop (e.g. temperature and humidity transducers

Comet).

A1*

4 to 20 mA

only galvanic not isolated

B0*

0 to 20mA

for passive sensing of current, Rin = 14 Ohms

B1*

0 to 1 A

input resistance Rin = 0.04 Ohms

B2*

0 to 5 A

AC

C0

0 to 20 mA

±1 % FS

galvanic isolated, sinusoidal signal at a frequency of 50 Hz

input C1 0 to 1 A resistance Rin by type 0.04 Ohm to 14 Ohms

C1

0 to 1 A

±1 % FS

C2

0 to 5 A

DC

D0*

0 to 100 mV

±0.1 % FS

input resistance Rin by a 900 kOhms to 10 Mohms

D1*

0 to 1 V

D2*

0 to 10 V

D4*

0 to 75 V

D5*

-10 V to +10 V

±0.1 % FS (± 20 mV)

AC

E0

0 to 100 mV

±1 % FS

only galvanic isolated, sinusoidal signal at a frequency of

50 Hz input resistance Rin by type 700 kOhms to 10 Mohms

E1

0 to 1 V

E2

0 to 10 V

E4

0 to 50 V

resistance

F*

must be specified

±0.1 % FS

two-wire connection

Ni1000

J*

-50 °C to +250 °C

±0.2 °C (-50 °C to 100 °C)

Ni1000/6180 ppm, two-wire connection

±0.2% MV (100 °C to 250 °C)

measuring current of approximately 0.25 mA continuously

Pt100

K*

-140 °C to +600 °C

±0.2 °C (-140 °C to +100 °C)

Pt100/3850 ppm, two-wire connection

±0.2 % MV (+100 °C to +600 °C)

measuring current of approximately 2 mA continuously

Pt1000

K1*

-140 °C to +600 °C

±0.2 °C (-140 °C to +100 °C)

Pt1000/3850 ppm, two-wire connection

±0.2 % MV (+100 to +600 °C)

measuring current of approximately 0.2 mA continuously

Pt1000

k3

-10 °C to +50 °C

C ±0.06 °C

Pt1000/3850 ppm, two-wire connection

measuring current of approximately 0.2 mA continuously

K (NiCr-Ni)

N*

-70 °C to +1300 °C

±0.3 % MV + 1.5 °C

linearized, cold junction compensation, datalogger must be

placed in recommendend working position

T (Cu-CuNi)

T*

-200 °C to +400 °C

J (Fe-Co)

O*

-200 °C to 750 °C

S (Pt10 %Rh-Pt)

P*

0 °C to 1700 °C

±0.3 % MV +1.5 °C (200 °C to 1700 °C)

B (Pt30 %Rh-Pt)

Q*

100 °C to 1800 °C

±0.3 % MV+1.0 °C (300 °C to 1800 °C)

linearized, without cold junction compensation

potential-less

Contact

S*

binary signal

maximum resistance of closed contact is 1000 Ohms

minimum duration for recording is 200 ms

voltage, galvanically

Isolated

S1

binary signal

voltage for „H“ state is 3 V to 30 Vdc @ 9 mA max

minimum duration for recording: 200 ms

galvanically isolated

potential-less

contact, galvanically

Isolated

CTU

31 bits, 5kHz max.

voltage change of the counter state is 3 V to 24 Vdc

backup power, filter bouncing

galvanically isolated

potential-less contact,

open connector

CTK

31 bits, 5kHz max.

maximum resistance of closed contact is 10 kOhms

minimum open contact resistance is 250 kOhms

backup power, filter bouncing

input voltage signal

measurement, galvanically

Isolated

FU

0 to 5 kHz

±(0.2 % MV + 1 Hz)±(0.2 % MV + 1 Hz)

input voltage for „H“: 3 V to 24 Vdc @ 7 mA

minimum duration of input pulse: 30 us

resolution 1Hz

galvanically isolated

measurement

frequency switching

contact, galvanically

FK

0 to 5 kHz

±(0.2 % MV + 1 Hz)±(0.2 % MV + 1 Hz)

maximum resistance of closed contact is 10 kOhms

minimum open contact resistance is 250 kOhms

resolution 1Hz

minimum duration of input pulse: 30 us

input for serial signal

RS485

RP

digital transmission

input supports Modbus RTU or Advantech

connected devices must have the same communication parameters

input can work with up to 16 devices

galvanic isolated, MS can be equiped wit multiple RP modules