Siemens
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Êàòàëîã ÑÀ01 2018
(4872) 700-366
skenergo@mail.ru

Design Attributes

 

Display size and Type

5.7" diagonal, color
Diagonal, Digital Colour LCD (TFT) with Touch Screen Industrial grade with brightness adjustment and wide viewing angle

Resolution

QVGA (320 x 240 pixels)

Screen Saver

Set in minutes from 1 â€¦ 720, can be set to dim the screen or to switch off. Automatic wake-up facility in the case of an alarm

Brightness adjustment

Adjustable between 10 and 100 %,
default set to 80 % brightness

Backlight life time

50 000 hours to half brightness when used at 100 %.
Maximum luminosity 450 cd/m²

Touch Screen life

1 000 000 touches

Display Update Rate

Display values updated every second

Status Display

A status bar, at the top of the recorder’s screen, displays the real-time icons of the recorder status, such as recording time left and alarm active.

Communications

Ethernet 10/100 base - T with RJ45 connector supporting Modbus/TCP, FTP, Internet, DHCP or fixed IP address.

Mathematics

Basic maths include Add, Subtract, Multiply, Divide, Modulo and power. Full Maths (option) support up to 100 character free form math expression for each pen. Like SINE, COS, TAN, Log, Parenthesis (eg. A1 + A2), comm variables, free memory, and access to any data item variable (A1, P1, D1 etc.)

Front USB Port

Front USB host port for data and setup transfers. External devices keyboard or mouse, Barcode reader, or external mass storage device. (USB 2.0 compliant)

Standard Screens

Fully programmable display values in engineering units. Time & date stamp on every division.

Sets of Standard screens are available to display data on a chart, digital reading, bargraphs or numerous combinations thereof. Screen properties can be modified on the recorder and customised to suit.

Digital values displayed include:

  • Alarms on bars
  • Engineering units
  • Pen name
  • Tag, time and date
  • 20 character description
  • Totalised values

Data Storage

 
  • Local Mass Storage Options
  • USB memory key - must be formatted
  • USB hard drive - up to 120 GByte
  • Internal Data Buffer

Non-volatile, 1 GByte (9 230 million acquisition values) and 2 GByte ( up to 650 million points)

  • Setup and screens

Stored internally on non-volatile memory

  • Manual Saving

Data saving by inserting USB memory stick

  • Data Saving Period

Related to log rate, number of pens, totals and alarms.

Each pen is capable of its own independent storage rate (100 ms â€¦ 60 h)

  • Data Format

Binary encoded format

  • Recycling Mode

Internal memory has FIFO (First In First Out) capability where the newest data over-writes the oldest data

Power Requirements

 
  • Voltage (VRMS)

100 V AC … 250 V AC (auto select)

  • Frequency

50/60 Hz

  • Power Consumption

< 40 W

  • 24 V optional instrument power

12 ... 30 V DC / 12 ... 20 V AC
Power Consumption: < 40 W

Battery

Battery backed up for clock, replaceable lithium battery Type 6032, 3.0 V – 10 years life (Recorder powered), 4 years life, typical (Recorder unpowered).

Password Protection

Multiple Administrator control of password setup and management with four levels of password protection for – Engineer, Supervisor, Technician, and Operator.

Up to 50 different users are available. Password protection restricts user entry to the recorder set up and specific screens.

  • Engineer

Highest access to all levels, Supervisor, Technician and Operator

  • Supervisor

2nd highest level including Technician and Operator access

  • Technician

3rd level including Operator access

  • Operator

4th and lowest level of access

Languages

  • English UK & US
  • French
  • German
  • Italian
  • Spanish
  • Brazilian
  • Polish
  • Hungarian
  • Slovakian
  • Czech
  • Turkish
  • Romanian
  • Russian
  • Greek
  • Portuguese
  • Bulgarian
  • Chinese
  • Japanese
  • Korean

Temperature Units

°C, °F, K

Recorder Identification

Status bar: Alternately displays Recorder ID and Recorder Screen Name, Displays Time and Date

Clock

 
  • Accuracy

± 20 ppm (± 1 minute/month) at 25 °C

Summer/Winter manual or automatic time adjustment or via communications. SNTP Client and/or Server included for synchronising over Ethernet

Alarm Set Points

6 per pen integral "soft" alarm set points easily set by user to announce selected out of limit conditions; user can select if an alarm triggers a change in the chart background colour

  • Alarm triggers

Alarm triggers can be set for Hi, Lo, Deviation. Latched alarms require acknowledgement from the operator

  • Alarm Damping

1 s … 24 h

  • Hysteresis

± 100 % of pen scale

An alarm can change the log rate on the affected pen

Data Replay Mode

Data replay facility on chart displays at normal, fast or slow speeds with zoom and cursor. Jump facility from the alarm history list directly to the occurance on the chart

Display Chart Speeds

 
  • Chart rates
  • 1 mm/h
  • 5 mm/h
  • 10 mm/h
  • 20 mm/h
  • 30 mm/h
  • 60 mm/h
  • 120 mm/h
  • 600 mm/h
  • 1200 mm/h
  • 6000 mm/h

Combinations of rates can be mixed and chart speeds can be set independently for each chart. Display speeds are independent of logging rate

Messages Screen

The message screen displays system information and records any setup activity that has been changed. It also provides warning and error message updates, lists alarm activity and will display user defined marks on a chart

CE Conformity (CE Mark)

This product conforms with the protection requirements of the following European Council Directives:
2014/35/EC, the Low Voltage Directive, and 2014/30/EC, the EMC Directive.

Conformity of this product with any other "CE Mark" Directive(s) shall not be assumed.

Immunity Product Classification

Complies with EN 61326‑1:2013 Class I:
Cord Connected, Panel Mounted Industrial Control Equipment with protective earthing (grounding), (EN 61010‑1:2010)

Enclosure Rating

Front panel designed to NEMA 3/IP54 (Optional NEMA 4X/IP66)

Installation Requirements

Category II: Overvoltage (EN 61010‑1:2010)
Pollution Degree 2

EMC Standards

Emissions - EN 61326‑1:2013 Class A
Immunity - EN 61326‑1:2013 Industrial Levels

Safety

Complies with EN 61010-1: 2010
Panel Mounted Equipment, Terminals must be enclosed within the panel

Analog Inputs

 

Number of Inputs

3, 6, 9 or 12 input channels

Input Types

mV, V, mA with external shunt (provided as standard), Thermocouple, RTD and ohms

Minimum Input Span

Range is fully configurable with span limitation of the operating range selected with 4 % under range to 4 % over-range capability (50 V Range 2 %)

Burnout (T/C)

Active (High or Low), Passive and Health watch/maintenance (option)

Cold Junction Compensation

Internal compensation with the ability to manually adjust values, External Input for compensation, External CJC value specified

Input Resolution

0.0015 % (16 Bit ADC)

Input Impedance

 
  • Current loop resistance

10 Ω, use ± 0.1 % external resistor,
Volts > 1 MΩ, all other > 10 MΩ

Source Impedance

 
  • T/C and RTD

100 Î© per lead maximum (a single point cal on Slot A will improve accuracy for a lead resistance above 10 Î©)

Square Root Extraction

Available as standard on Volts and mA input types

Sensor Compensation

Single point and Dual point for every input type

Input Sampling Rate

Recorder has 2 available slots with up to 6 analog inputs each; first slot fixed

  • Analog Input card (standard)

200 ms (5 Hz), 500 ms (2 Hz)

  • Analog Input expansion card
    (option)

100 ms (10 Hz), 200 ms (5 Hz), 500 ms (2 Hz)

Linear Scales

  • Normal and Scientific notation
  • Decimal Point automatic or programmable
  • Engineering units, user definable (10 characters)

Logarithmic Scales

 
  • Logarithmic Decade limits

‑38 min â€¦ +38 max, (recommend up to 20 decades on one screen to ensure clarity)

Input Isolation

300 V AC channel-to-channel, channel-to-ground (Resistance thermometers are not isolated for initial card, expansion card option RTs are isolated)

Noise Rejection

At 50/60Hz ± 2 %

  • Analog Input card (standard)
 
  • Common mode

2 Hz = ‑120 dB, 5 Hz = ‑120 dB

  • Normal Mode

2 Hz  = ‑80 dB, 5 Hz = ‑25 dB

  • Analog Input expansion card
    (option)
 
  • Common mode

2 Hz = ‑120 dB, 5 Hz = ‑120 dB,
10 Hz = ‑120 dB

  • Normal Mode

2 Hz = ‑85 dB, 5 Hz = ‑80 dB,
10 Hz = ‑48 dB

Input Range Performance and Accuracy

For Analog Input standard and expansion cards

Input Actuation (Linear)

Range

  • mV (DC)

‑1000 … +1000

  • V (DC)

‑50 … +50

  • mA

4 … 20, 0 … 20

  • 200 Ω

0 … 200

  • 500 Ω

0 … 500

  • 1000 Ω

0 … 1000

  • 4000 Ω

0 … 4000

Thermocouples

Temperatur range

  • B

260 ... 538 °C (500 ... 1000 °F)

538 ... 1816 °C (1000 ... 3300 °F)

  • E

‑270 ... â€‘200 °C (‑454 ... â€‘328 °F)

‑200 ... â€‘70 °C (‑328 ... â€‘94 °F)

‑70 ... +1000 °C (‑94 ... +1832 °F)

  • J

‑210 ... 0 °C (‑346 ... +32 °F)

0 ... 1200 °C (32 ... 2192 °F)

  • K

‑270 ... â€‘70 °C (‑454 ... â€‘94 °F)

‑70 ... +1372 °C (‑94 ... +2502 °F)

  • R

‑50 ... +260 °C (‑58 ... +500 °F)

260 ... 650 °C (500 ... 1202 °F)

650 ... 1768 °C (1202 ... 3214 °F)

  • S

‑50 ... +260 °C (‑58 ... +500 °F)

260 ... 1000 °C (500 ... 1832 °F)

1000 ... 1768 °C (1832 ... 3214 °F)

  • T

‑270 ... â€‘210 °C (‑454 ... â€‘346 °F)

‑210 ... +400 °C (‑346 ... +752 °F)

  • L

‑200 ... 0 °C (‑328 ... +32 °F)

0 ... 900 °C (32 ... 1652 °F)

  • G (W_W26)

0 ... 100 °C (32 ... 212 °F)

100 ... 316 °C (212 ... 600 °F)

316 ... 830 °C (600 ... 1526 °F)

830 ... 1515 °C (1526 ... 2759 °F)

1515 ... 2315 °C (2759 ... 4119 °F)

  • C (W5, W26)

0 ... 180 °C (32 ... 356 °F)

180 ... 1220 °C (356 ... 2228 °F)

1220 ... 2315 °C (2228 ... 4199 °F)

  • M (NiMo‑NiCo) (NNM90)

‑50 ... +370 °C (‑58 ... +698 °F)

370 ... 1410 °C (698 ... 2570 °F)

  • N (Nicosil Nisil)

‑200 ... +100 °C (-328 ... +212 °F)

100 ... 1300 °C (212 ... 2372 °F)

  • Chromel/Copel

‑50 ... +600 °C (‑58 ... +1112 °F)

  • P (Platinel)

0 ... 1390 °C (32 ... 2534 °F)

  • D

0 ... 180 °C (32 ... 356 °F)

180 ... 1840 °C (356 ... 3344  °F)

1840 ... 2490 °C (3344 ... 4515  °F)

Resistance thermometers

Temperatur range

  • Pt100 α = 0,00385

‑200 ... +850 °C (‑328 ... +1562 °F)

  • Pt 200 α = 0.00385

‑200 ... +850 °C (‑328 ... +1562 °F)

  • Pt 500 α = 0.00385

‑200 ... +850 °C (‑328 ... +1562 °F)

  • Pt 1000 α = 0.00385

‑200 ... +850 °C (‑328 ... +1562 °F)

  • Nickel, 100 Ω

‑60 ... +180 °C (‑76 ... +356 °F)

  • Nickel, 120 Ω

‑80 ... +260 °C (‑112 ... +500 °F)

Logging

 

Logging Method

Sample, Average, Min/Max - can be set independently per pen

Logging Types

Continuous, Fuzzy

Logging Rate

From 100 ms … 60 h per Pen

Fuzzy Logging

A secure data storage technique which delivers data compression ratio of 100:1 or more; self teaching, storing the data at a variable rate to match the process

Mechanical Design

 

Enclosure/Bezel

Zinc plated steel case with high impact resistant polycarbonate bezel; scratch resistant lens (Polyethylene Terephthalate). NEMA 3/IP54 protection rating standard. Optional NEMA 4X/IP66 (Front face only)

  • Enclosure Rating

Front panel designed to NEMA 3/IP54 (Optional NEMA 4X/IP66)

  • Colour

Bezel: Grey

Mounting Panel

Unlimited mounting angle

For the best view of the display the viewing angle should not exceed:

  • 45° from the left or right,
  • 10° looking down and
  • 30° looking up at the recorder display.

Mounting adjustable for panel thickness of 2 mm â€¦ 20 mm. Adapter kits available for covering existing panel cutouts.

Dimensions (W x H x D) in mm

144 x 144 x 200 (5.67 x 5.67 x 7.87")

Additional 80 mm (3.15") clearance recommended for a straight type power cable and signal connectors

Cutout (W x H) in mm

138 x 138 mm (5.43 x 5.43")

Weight

Max. 2.4 kg (5.3lb)

Wiring Connections

IEC Power Plug. Removable terminal strip for input and alarm connections

Environmental and Operating Conditions

 

Ambient Temperature

0 °C â€¦ 50 °C (32 °F ... 122 °F)

Relative Humidity (%RH)

10 ... 90

Vibration

 
  • Frequency (Hz)

0 ... 70

  • Acceleration (g)

0.1

Mechanical Shock

 
  • Acceleration (g)

1

  • Duration (ms)

30

Mounting Position from Vertical

 
  • Tilted Forward

40°

  • Tilted Backward

65°

  • Tilted to Side (±)

65°

Power Requirements

 
  • Mains Voltage (Vrms)

100 â€¦ 250

  • Low Voltage AC (Vrms)

20 â€¦ 25

  • DC Voltages

20 â€¦ 30

  • Frequency (Hz)

47 â€¦ 63

Power Consumption

AC: < 40 W (max),
DC: <40 W (max), typical 20 W

Warm Up

30 minutes minimum

Options

 

Alarm Outputs

Programmable alarm set points (6 per pen) can be configured to activate up to 8 outputs

  • Update rate

200 ms for all alarms

  • Number/Type
  • 4 or 8 relay contacts SPDT,
    3 A 240 V AC, 3 A 24 V AC/DC,
    0.2 A 240 V DC (non-inductive, internally suppressed)
  • 8 I/O - SPNO 1 A 24 V DC
    (non-inductive, internally suppressed)
  • Activation

Fully programmable internal alarm levels. Assignable to any relay output

Digital Input/Output

 
  • Quantity
  • 8 I/O

All channels may be selected freely as either digital inputs or outputs. The Digital I/O card also has 4 channels that can be set as pulse inputs (channels 1 â€¦ 4). The operating frequency for pulse inputs on the Digital I/O card is 1kHz max.

  • Inputs

Voltage free, isolated

  • Outputs

4 relay outputs, all four channels are relay outputs only

  • Relays/DI card
  • 8 relays/ 2 DI card

2 outputs can be configured for use as digital inputs: A digital input is provided by a volt free contact between the normally open (NO) and the common (C) terminals of an output relay. If the 2 Digital inputs are used only 6 relay outputs are available. Closed < 500 Î©, Open > 300 kΩ

E-mail

Setup email accounts to send the following:
When an Alarm is triggered or an Email can be sent as a part of an Event occurring, such as: Alarms - In/Out/Ack, Totaliser – Start, Stop or Reset, Digital Inputs – On, Off or State change, TC Burnout – on a specific Analog Input channel, Scheduled Events – Once, Interval, Specific days, Month End

Events

User defined process events are recorded and can be set to cause particular recorder actions. Events can consist of recording start/stop, digital inputs, alarms, totalising actions, timers, barcode, etc. Once an event has been caused it can produce a definable set of effects on the recorder which can include, mark on chart, relay outputs, recording control, acknowledge alarm, trigger an Event, set/clear Relay, Screen change, E-mail a message and Reset max/mins. Each event marker can be recorded for analysis using the SIREC D application software.

Health Watch/Maintenance Capability

The recorder keeps track of important "life actions" for improved diagnostics and preventative maintenance notification.

Including

  • Powered On
  • Last powered On
  • Time On since power up
  • Total On time
  • Total Off time
  • Longest Off time
  • Lithium cell life
  • Backlight life left at 100 % brightness
  • Hi/Lo CJC value (Hi & Lo temps),
  • Analog In last factory/user calibration
  • Relay operations
  • Last configuration change

Transmitter Power

130 mA at 24 V DC ± 3 V DC

Extended Security System (ESS)

Provides full support for 21 CFR Part 11.

Includes features for entry of unique User ID’s and associated passwords:

  • Timeout on inactivity (1 … 10 min)
  • Password expiration (1 … 365 days)
  • Up to 50 users
  • Password re-entry lock out for incorrect entry of password more than 3 times, no re-use of passwords (programmable 4 … 12 times)
  • Traceability by user name

Totaliser/Sterilisation

One totaliser per input. Totaliser value must be assigned to a pen for display and storage.

Multiple totalisations (Maths option) are possible with the use of extra pens (option). Reset may be manual or programmed. Totalisation values are 10 digits plus exponent.

Each pen can be totalised according to the Fo or Po sterilisation* function at 121.11 °C (250 °F).

The Standard Reference Temperature and Thermal Resistance (Z Value) are fully adjustable values of X, Y, W and V. Start temp, Reference temp and Z factor are all user defined, allowing support for many different types of sterilisation applications.

Specification table for Sterilisation

The definition of Fo/Po is the sterilisation/pasteurisation time in minutes required to destroy a stated number of organisms with a known z at temperature T.

Batch

The Batch function allows the user to segment portions of data for further analysis.
Batch controls include:

  • Start
  • Stop
  • Pause
  • For viewing
  • Resume and Abort

Print Support

Network printing from status, message and replay screens. Plus screen capture facility of process screens instantly using a basic USB standard PCL printer.

Math Algorithms

All analog input channels have a math expression block. This is a fully user programmable 100 character free form math expression for each pen. Math calculations are available on all pens, one per input plus 12 extra pens for the SIREC D200 recorder.

Miscellaneous

Optional customer ID Tagging (3 lines of up to 22 characters each line)



Firmware Credit System

The credits system is a flexible way of adding to the recorder features without having to upgrade the firmware. Simply purchase a number of credits to cover your current and possibly future requirements and the recorder will be delivered with the credits loaded. The credit value in each recorder is displayed in the Factory menu.

  • Select the Options button and by activating and de-activating the options in the credit list, the recorder will change its functionality. Any greyed out options on the list will mean there are not enough credits available for that feature on the recorder.

Credits can be applied as desired to the Firmware functions until the total number of credits purchased has been used up. Additional credits can be purchased later if new features are to be activated and not enough credits are available to support these additional functions.

Firmware option

Credit value

Description

Full Maths

4

Full Math - this can handle math expressions that can consist of expressions up to 100 characters in length. (Note 1)

Full Maths with Scripting

6

A powerful multi-line scripting ability available to solve complex state based applications.
Eg.: "If .. X happens, then Y will happen, else.. Z will occur." (Note 1)

Events

6

Events are certain conditions or operations that can be set up and logged according to the time and date of an occurrence. Subsequently events can be reviewed or displayed on a graph.
Events can be set up to produce the following actions: Mark on Chart, start/stop Logging, start/stop/reset Totalisers, acknowledge alarm, trigger an Event, set/clear Relay, Screen change, E-mail a message and Reset max/mins. (Note 2)

Totalisers/ Sterilisation calculation

4

Each pen can be associated with a totaliser. Using extra pens, the totalised values can be displayed and recorded; multiple totals can be calculated out of the same variable (weekly, monthly, etc.). The totaliser function can handle Fo and Po sterilisation calculation. (Note 1)

Reports

3

Generate reports manually or using the event system to show daily/weekly/monthly Totals, Max/ Mins, Averages, Current Value. Messages, Message Lists - Alarm, System, Diagnostic, Security & User, Counters, Digital Inputs, and Digital Outputs. Reports can be printed, e-mailed as an attachment or exported to external media in RTF format.

AMS 2750 Process

5

AMS2750 Process activates the Process Mode screen and the AMS2750 process configuration menus for furnaces and sensors in accordance with AMS2750 specification, including Thermocouple tracking.

Health Watch/ Maintenance

2

The recorder keeps track of important "life actions" for improved diagnostics and preventative mainte-nance notification. Including Powered On, Last powered On, Time On since power up, Total On time, Total Off time, Longest Off time, Lithium cell life, Backlight life left at 100 % brightness, Hi/Lo CJC value (Hi & Lo temps), Analog In last factory/user cal, Relay operations.

Print Support

2

Network printing from status, message and replay screens. Plus screen capture facility of process screens instantly using a basic USB standard PCL printer.

Batch

5

The Batch function allows the user to segment portions of data for further analysis. Batch controls include Start, Stop, Pause, for viewing, Resume and Abort.

Modbus Master

10

Modbus master enables the recorder to communicate with up to 32 Slave devices on both Ethernet and RS485. The recorder itself can also act as a slave device while also being a master. RS485 is not available for SIREC D200.

Remote Viewer

3

Extends the user interface of the recorder onto the desktop PC. Providing full remote control of the unit launched from a web browser.

E-mail

3

Setup email accounts to send the following: When an Alarm is triggered or an Email can be sent as a part of an Event occurring, such as: Alarms - In/Out/Ack, Totaliser – Start, Stop or Reset, Digital Inputs – On, Off or State change, TC Burnout – on a specific Analog Input channel, Scheduled Events – Once, Interval, Specific days, Month End.

Pwd Net Sync

5

Password Network Synchronisation. Password can be synchronised over the network, a recorder can be designated as a master of a password group and other recorders can be added to that group as slaves, the master will ensure all passwords are synchronised with all recorders in its group.

Secure WSD

3

Secure WSD is a web service that can run on devices and conforms to the Devices Profile for Web Services (DPWS). Recorder device will host web service and have server certificate installed on it. Desktop clients will have root authority certificate of server in trusted root certificates. Whenever client connects to WSD service SSL handshake will take place and on successful handshaking secure communication channel will be established and data flowing between these two end points will be encrypted.

Extra Pens

2

4 extra pens to store and display totalised values, results of calculations, etc. Maximum is up to 12 extra pens for the SIREC D200 recorder.

Hardware Lock

2

Uses the password permission areas to lock access to the hardware configuration functionality leaving some areas view only.



Notes

  • (1) Additional pens ("Extra Pens") can be used to display and store the results of calculations, totalisers, variables imported via communications, or to store values.
  • (2) Event markers are required to automatically reset the totalisers, for example on a periodic basis or on an external condition. (Not necessary if the totalisers are reset manually)
















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Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 23

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30


Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30
Êðàíû è Êëàïàíû

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 23

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30


Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30
Èçìåðèòåëüíûå ïðèáîðû

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 23

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30


Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30
Ñèñòåìû áåñïðîâîäíîãî óïðàâëåíèÿ «óìíûé äîì»

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 23

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30


Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30
Áåñêîíòàêòíûå âûêëþ÷àòåëè Êîíå÷íûå âûêëþ÷àòåëè Îïòè÷åñêèå äàò÷èêè Ýíêîäåðû

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 23

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30


Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30
SKW-FS - Óñòàíîâêà óìÿã÷åíèÿ

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 23

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30

Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30


Deprecated: Function eregi() is deprecated in /home/h101150-2/siemens71.ru/docs/kip/kip.php on line 30
SKW-FK - Óñòàíîâêà îáåçæåëåçèâàíèÿ

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