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Transmitters, Siemens

Siemens Pressure Transmitter 7MF4033

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Siemens Pressure Transmitter 

Siemens Pressure Transmitter 7MF4033

Benefits

  • Extensive diagnostics and simulation functions
  • Suitable for installation in SIL 2 applications in accordance with IEC 61508 /IEC 61511. In the PROFIsafe version, it guaranteess maximum communication safety up to the control system level
  • Wide range of certification and approval e.g. ATEX EEx ia, EEx ib, Dust protection, FM, CS
  • Option of using a simulation function for loop check functions
  • Opens up a host of different bus communication options for you: HART, PROFIBUS PA, PROFIsafe or FF

Order number   SITRANS P, DS III series for
7MF4033             Gauge pressure
7MF4133             Gauge pressure, flush mounted diaphragm
7MF4233             Absolute pressure from the gauge pressure series
7MF4333             Absolute pressure from the differential pressure series
7MF4433             Differential pressure and flow rate, PN 32/160 (MAWP 464/2320 psi)
7MF4533             Differential pressure and flow rate, PN 420 (MAWP 6092 psi)
7MF4633             Level

Siemens Pressure Transmitter

Siemens Pressure Transmitter 7MF4033

Even the standard devices offer comprehensive diagnostics and simulation functions with high reliability.

But the suitability for use in SIL2 circuits has been certified by external test institutes.

with Profibus transmitters, the new PROFISAFE technology guarantees uniform safety from the control system down to the transmitter.

Siemens Pressure Transmitter has many characteristics.

Such as:

Detail
Accuracy : ≤ 0.065 %
Long-Term Stability : ≤ 0.125 % / 60 months
Measuring range : 0 – 1 mbar to 0 – 700 bar

Input
Measured variable Realtive pressure
1. Measured range 0 to 16 bar g (0 to 232 psi g) or
2. 0 to 25 bar g (0 to 363 psi g)
Output
Current output signal 4 … 20 mA

Voltage output signal (only measuring range ≥ 1 bar (14.5 psi))
0 … 10 V DC

Power supply
Terminal voltage on pressure transmitter
• For current output 10 to 36 V DC

Transmitters, Siemens

SIEMENS Differential pressure transmitter 7MF4433-1GA022

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SIEMENS Differential pressure transmitter

SIEMENS Differential pressure transmitter 7MF4433-1GA022

  • Extensive diagnostics and simulation functions
  • Suitable for installation in SIL 2 applications in accordance with IEC 61508 /IEC 61511. In the PROFIsafe version, it guaranteess maximum communication safety up to the control system level
  • Wide range of certification and approval e.g. ATEX EEx ia, EEx ib, Dust protection, FM, CS
  • Option of using a simulation function for loop check functions
  • Opens up a host of different bus communication options for you: HART, PROFIBUS PA, PROFIsafe or FF

SITRANS P DSIII Order No.
7MF4033-…..-….SITRANS P DSIII GAUGE PRESSURE
7MF4034-…..-….SITRANS P DSIII PA GAUGE PRESSURE
7MF4035-…..-….SITRANS P DSIII FF GAUGE PRESSURE
7MF4133-…..-….SITRANS P DSIII FLUSH DIAPHRAGM
7MF4134-…..-….SITRANS P DS III PA PRESSURE MEASURING
7MF4135-…..-….SITRANS P DSIII FF FLUSH DIAPHRAGM
7MF4233-…..-….SITRANS P ABS.PRESSURE, DS III SERIES
7MF4234-…..-….SITRANS P FOR ABS. PRESSURE DS III
7MF4235-…..-….SITRANS P FOR ABS. PRESSURE DS III FF

SIEMENS Differential pressure transmitter

SIEMENS Differential pressure transmitter 7MF4433-1GA022

The SITRANS P DS III series includes digital pressure transmitters for measuring gauge pressure, absolute pressure, differential pressure, flow and level.
Even the standard devices offer comprehensive diagnostics and simulation functions with high reliability. The suitability for use in SIL2 circuits has been certified by external test institutes.
With Profibus transmitters, the new PROFISAFE technology guarantees uniform safety from the control system down to the transmitter.

SITRANS P Series DSIII transmitters provide reliable, accurate, stable, and cost-effective measurement
of differential, absolute, and gauge pressure and liquid level.

Detail
Accuracy : ≤ 0.065 %
Long-Term Stability : ≤ 0.125 % / 60 months
Measuring range : 0 – 1 mbar to 0 – 700 bar

EJA-E series, Transmitters, Yokogawa

Yokogawa EJA210E Flange Mounted Differential Pressure Transmitter

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Yokogawa Flange Mounted Differential Pressure Transmitter

Yokogawa EJA210E Flange Mounted Differential Pressure Transmitter

The EJA-E series of transmitters is Yokogawa’s most recent evolution of the DPharp family. Released in 2012, it combines the ruggedness and success of the work-horse.

EJA-A series with the performance of the thoroughbred EJX-A series to deliver the type of product you have come to expect from Yokogawa.

The high performance differential pressure transmitter EJA210E can be used to measure levels of densities of solidifying or precipitating liquids.

  • For 4 to 20 mA HART / BRAIN
    (Output signal code D and J)
  • Update Period :Differential pressure: 45 ms
    Static pressure: 360 ms
  • Accuracy
    Absolute Pressure
    1 MPa or higher: ±0.5% of span
    Less than 1 MPa: ±0.5%×(1 MPa/span) of span
    Gauge Pressure Reference
    Gauge pressure reference is 1013 hPa (1 atm)

Yokogawa  Flange Mounted Differential Pressure Transmitter

Yokogawa EJA210E Flange Mounted Differential Pressure Transmitter

The high performance flange mounted differential
pressure transmitter EJA210E can be used  to measure levels of densities of solidifying or precipitating liquids.

Meanwhile, It also features quick response, remote setup and monitoring via BRAIN or HART communications and self-diagnostics.

Stability:±0.1 % of URL per 12 months
Power Supply Effects(Output signal code D and J)
±0.005 % per Volt (from 21.6 to 32 V DC, 350Ω)
Response Time (Differential pressure)
M and H capsule: 120 ms (approximate value at normal temperature)
When software damping is set to zero and including
dead time of 45 ms (nominal)

Load for 4 to20 mA HART/BRAIN(Output signal code D and J)
0 to 1290Ω for operation
250 to 600Ω for digital communication

Output Load for 1 to 5 V HART (Output signal code Q)
1 MΩ or greater (meter input impedance)
Note that with three-wire connection, the cable length
may affect the measurement accuracy of the output
signal.

 

 

 

 

Transmitters, Honeywell

Honeywell STT850 SmartLine Temperature Transmitter

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Honeywell SmartLine Temperature Transmitter

Honeywell STT850 SmartLine Temperature Transmitter

Introduction
Part of the SmartLine® family of products, the SmartLine
STT850 is a high-performance temperature transmitter
offering high accuracy and stability over a wide range of
process and ambient temperatures. The SmartLine family
is also fully tested and compliant with Experion ® PKS
providing the highest level of compatibility assurance and
integration capabilities. SmartLine easily meets the most
demanding needs for temperature measurement
applications.

The SmartLine Temperature Transmitter is designed and
manufactured to deliver very high performance across
varying ambient temperature. The total accuracy of the
transmitter including the ambient temperature effect in
harsh industrial environments, allows the STT850 to replace
virtually any competitive transmitter available today.

Unique Indication/Display Options
The STT850 modular design accommodates a basic
alphanumeric LCD display or a unique advanced graphics
LCD display with many unparalleled features

Industry leading performance
o Digital Accuracy up to +/- 0.10 Deg C for RTD
o Stability up to +/- 0.01% of URL per year for ten
years
o 125 mSec update time for single input models
o 250 mSec update time for dual input models

An optional Digital Output (open collector type) is available
on HART transmitters which can be used to activate
external equipment when preset Alarm Setpoints are
reached. The Digital Output can be set to monitor two
independent setpoints based upon the analog value of the
PV or upon device status.
The following Alarm Types are available:
· PV High
· PV Low
· Critical Diagnostic Active
· Redundant Input Active**
· PV Rate of Change Alarm *
· PV Deviation Alarm *

ST 700 series, Transmitters, Honeywell

Honeywell STG77S SmartLine Gauge Pressure

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Pressure Transmitter

Pressure Transmitter Honeywell STG770 series is a high-performance pressure transmitter with advanced sensor technology that combines pressure with static pressure and temperature compensation on the sensor chip to provide extremely high measurement accuracy and stability over a wide range of static pressure and temperature.

Features:

  • Accuracy up to 0.065 % of calibrated span
  •  Stability up to 0.02% of URL per year for five years
  •  Automatic temperature compensation
  •  Rangeability up to 100:1
  •  Response times as fast as 100ms
  •  Alphanumeric display capabilities
  •  External zero, span, & configuration capability
  •  Polarity insensitive electrical connections
  •  On-board diagnostic capabilities
  •  Integral Dual Seal design for safety based on
  • ANSI/NFPA 70-202 and ANSI/ISA 12.27.0
  •  Full compliance to SIL 2/3 requirements as a standard.
  •  Modular design characteristics

Span & Range Limits:

Model URL/Ma

x Span

psi (bar)

 

 LRL

psi (bar)

 

 Min Span

 

 Turn

down

 
STG730/STG73L 50(3.5) -14.7 (-1.0) 0.5 (0.035) 100:1
STG740/STG74L 500 (35) -14.7 (-1.0) 5 (.35) 100:1
STG770/STG77L 3000 (210) -14.7 (-1.0) 30 (2.1) 100:1
STG78L 6000 (420) -14.7 (-1.0) 60 (4.2) 100:1
STG79L 10000 -14.7 (-1.0) 100 (6.9) 100:1

 

Communications/Output Options:

Honeywell Digitally Enhanced (DE)

HART ®(version 7.0)

FOUNDATION™ Fieldbus

Honeywell STG77S SmartLine Gauge Pressure

Description

  • Honeywell differential pressure transmitter models are the following:
    STD924-A1A-00000-MB, SM, 1C (0-100 KPa)
    STD924-E1A-00000-AN, MB, SM, 1C (0-100KPa)
    STD924-E1H-00000-MB, S2, SM, 1C (0-100KPa)
    STD930-A1A-00000-MB, SM, 1C (0-700KPa)
    STD930-E1A-00000-MB, SM, 1C (0-700KPa)
    STD930-E1H-00000-S2, MB, SM, 1C (0-700KPa)
    Differential Pressure Transmitter Range:
    STD110 (0 ~ 100 0 ~ 2500Pa)
    STD120 (0 to 0.25 0 to 100 kPa)
    STD130 (0-0.35 to 0-7 bar)
    STD170 (0-7 to 0-210 bar)
    STD125 (0-62.2 to 0-1,500 mbar)
    Common models:
    Honeywell differential pressure transmitter models are the following:
    STD110-A1A-00000-MB, SM, 1C (0 to 100 0 to 2500 Pa)
    STD110-E1A-00000-MB, SM, 1C (0 to 100 0 to 2500 Pa)
    STD110-E1H-00000-S2, MB, 1C (0 to 100 0 to 2500 Pa)
    STD120-A1A-00000-MB, SM, 1C (0 to 0.25 0 to 100 kPa)
    STD120-E1A-00000-MB, SM, 1C (0 to 0.25 0 to 100 kPa)
    STD120-E1H-00000-MB, S2, SM, 1C (0 to 0.25 0 to 100 kPa)
    On-line pressure transmitter Range:
    STG94L (0 ~ 0.14 0 ~ 3.5MPa)
    STG97L (0 ~ 2.1 0 ~ 21MPa)
    STG98L (0 to 3.5 0 to 41.5 MPa)
    STG99L (0 ~ 3.5 0 ~ 69MPa)
    Common models:
    Honeywell pressure transmitter has the following models:
    STG94L-E1G-00000-1C (0 to 0.14 0 to 3.5 MPa)
    STG94L-E1G-00000-SM, 1C (0 to 0.14 0 to 3.5 MPa)
    STG94L-E1A-00000-SM, MB, 1C (0 to 0.14 0 to 3.5 MPa)
    STG97L-E1G-00000-SM, MB, 1C (0 to 2.1 0 to 21 MPa)
    STG97L-E1G-00000-MB, 1C (0 to 2.1 0 to 21 MPa)
    STG98L-E1G-00000-MB, 1C (0 to 2.1 0 to 21 MPa)
    On-line pressure transmitter Range:
    STG94L: (0 to 0.14 0 to 3.5 MPa)
    STG97L: (0 to 2.1 0 to 21 MPa)
    STG98L: (0 to 3.5 0 to 41.5 MPa)
    STG99L: (0 to 3.5 0 to 69 MPa)
Endress+Hauser, Transmitters

Endress+Hauser Pressure transmitter PMC71-AAA

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Endress+Hauser Pressure transmitter

Endress+Hauser Pressure transmitter PMC71-AAA

The operating pressure deflects the separating diaphragm and a fill fluid transfers the pressure to a resistance
measuring bridge (semi-conductor technology). The pressure-dependent change of the bridge output voltage
is measured and processed further.

Advantages:
– Can be used with process pressures up to 700 bar
– High long-term stability
– Guaranteed overload resistance up to 4 times the nominal pressure (PMP71)
– Second process barrier (Secondary Containment) for enhanced integrity
– Significantly less thermal effect compared to diaphragm seal systems

Application
The Cerabar S pressure transmitter is used for the
following measuring tasks:
– Absolute pressure and gauge pressure in gases, steams
or liquids in all areas of process engineering and
process measurement technology
– Level, volume or mass measurement in liquids
– High process temperature
– without diaphragm seals up to 150°C (302°F)
– with typical diaphragm seals up to 350°C (662°F)
– High pressure up to 700 bar
– International usage thanks to a wide range of approvals

Your benefits
• Very good reproducibility and long-term stability
• High reference accuracy: up to 0.075 %,
as PLATINUM version: 0.05 %
• Turn down up to 100:1, higher on request
• Used for process pressure monitoring up to SIL3,
certified to IEC 61508 by TÜV SÜD
• HistoROM®/M-DAT memory module
• Function-monitored from the measuring cell to the
electronics
• Continuous modularity for differential pressure,
hydrostatics and pressure (Deltabar S – Deltapilot S –
Cerabar S), e.g.
– replaceable display
– universal electronics
• Quick commissioning with Quick Setup menu
• Menu-guided operation
• Extensive diagnostic functions
• Device versions compliant with ASME-BPE

Endress+Hauser

Endress Hauser Liquid Level Switch liquiphant FTL 50

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Endress Hauser Liquid Level Switch liquiphant

Endress Hauser Liquid Level Switch liquiphant FTL 50

Features and Benefits
• Large selection of process
connections: universal use
• Installs in threaded openings as
small as 3/4” or in flanges as small
as 1”
• Wide variety of electronics, e.g.
DPDT relay, 4 to 20 mA switch,
NAMUR, PFM signal output,
transistor: the right connection for
every process control system
• No calibration: quick, low-cost
start-up
• No mechanical moving parts: no
maintenance, no wear, economical
long operating life
• Monitoring of fork for damage:
guaranteed operation

Endress Hauser Liquid Level Switch liquiphant FTL 50

Applications
The Liquiphant M is a level limit switch
for use in all liquids
• With temperatures between -40° and
+ 300°F (-40° to + 150°C)
• Pressures up to 930 psig (64 bar)
• Viscosity up to 10,000 cP

Versatile Selection
• FTL 50: compact design, ideal for
mounting in pipes
• FTL 51: extension tube for up to
115 inches maximum (3 m)
• FTL 50 H, FTL 51 H: with polished
fork and easy to clean process
connections and housings for food
and pharmaceutical applications
• Density from 0.5 SGU
The function is not affected by flow,
turbulence, bubbles, foam, vibration, bulk
solids content or build-up. The
Liquiphant M is thus the ideal replacement
for float switches, gap switches,
capacitance and other technologies.

Endress+Hauser

Endress Hauser Digital pH sensor Orbisint CPS11D

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Endress Hauser Digital pH sensor Orbisint

Endress Hauser Digital pH sensor Orbisint CPS11D

Orbisint CPS11D
Technical Information
pH electrodes, analog and digital with Memosens technology
For standard applications in process and environment technology, with
dirt-repellent PTFE diaphragm, optional built-in temperature sensor

Endress Hauser Digital pH sensor Orbisint CPS11D

Applications
• Long-term monitoring and limit monitoring of
processes with stable process conditions
– Paper industry
– Plastics chemistry
– Power plants (e.g. flue gas washers)
– Incineration plants
– Food industry
– Breweries
• Water treatment
– Drinking water
– Cooling water
– Well water

Your benefits
• Robust electrode requiring low maintenance due to
the large PTFE ring diaphragm
• Certified biocompatibility
• Applications under pressures up to 97 psi (6 bar)
• Long service life due to double junction system of
metal lead leading to long electrode poison diffusion
path
• Sterilizable
• Process glass for highly alkaline applications
available
• With optional built-in Pt 100 or Pt 1000 temperature
sensor for effective temperature compensation
• Rugged TOP 68 plug-in system for reliable transfer
of measured values.

Valve Positioner, Fisher

Fisher valve positioner DVC6200F Digital Valve Controller

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Fisher valve positioner

Fisher valve positioner DVC6200F Digital Valve Controller

The FIELDVUE DVC6200F Digital Valve Controller is a core component of the PlantWeb™ digital
plant architecture. The digital valve controller powers PlantWeb by capturing and delivering valve
diagnostic data. Coupled with ValveLink™ software, the DVC6200 provides users with an accurate
picture of valve performance, including actual stem position, instrument input signal, and
pneumatic pressure to the actuator. Using this information, the digital valve controller diagnoses
not only itself, but also the valve and actuator to which it is mounted.

Fisher valve positioner DVC6200F Digital Valve Controller

Classification and application:

Products directly mounted on the valve:

  • DVC6010: used in straight stroke control valves
  • DVC6020: for rotary and long stroke straight stroke control valves
  • DVC6030: for 90 degree rotary control valve

Remote installation of products:

  • DVC6005: Basic unit for 2-inch tubing or wall panel mounting
  • DVC6015: The feedback unit is used for straight stroke valves
  • DVC6025: The feedback unit is used for rotary and long stroke straight stroke valves
  • DVC6035: The feedback unit is used for 90 degree rotary valves

Specific models are as follows:

  • DVC6010-AC single acting, DVC6010-AC double acting
  • DVC6010-HC single acting, DVC6010-HC double acting
  • DVC6020-AC single acting, DVC6020-AC double acting
  • DVC6020-HC single acting, DVC6020-HC double acting
  • DVC6030-AC single acting, DVC6030-AC double acting
  • DVC6030-HC single acting, DVC6030-HC double acting

ABB positioner models are as follows:

  • V18345-1010521001
  • V18345-1010121001
  • V18345-1020121001
  • V18345-1010120001
  • V18345-1004210001
  • V18345-1021120001
  • V18345-1020520001
  • V18345-1010221001

Siemens (SIEMENS) positioner models are as follows:

  • 6DR5220-0EN00-0AA0
  • 6DR5010-0NG00-0AA0
  • 6DR5215-0EN00-0AA0
  • 6DR5020-0NG00-0AA0
  • 6DR5010-0NG01-0AA0
  • 6DR5110-0EG00-0AA0
  • 6RD5210-0NN00-0AA0
  • 6DR5010-0NN01-0AA0
Transmitters, Rosemount

ROSEMOUNT 1066 Liquid Analytical Transmitter

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ROSEMOUNT  Liquid Analytical Transmitter

ROSEMOUNT 1066 Liquid Analytical Transmitter

specifications

Active display area

58 x 78mm (2.3 x 3.0 in.). All fields of the main instrument display can be

Ambient temperature and humidity

-20 to 65°C (-4 to 149°F), RH 5 to 95% (non-condensing).

Storage Temperature

-20 to 70°C (-4 to 158°F)

ROSEMOUNT Liquid Analytical Transmitter

ROSEMOUNT 1066 Liquid Analytical Transmitterr

Quick Star Guide:

1. For mechanical installation instructions, see page 14 for panel mounting and page 15 for pipe or wall mounting.

2. Wire the sensor to the main circuit board. See pages 21-23 for wiring instructions. Refer to the sensor instruction sheet for additional details. Make loop power connections

3. Once connections are secured and verified, apply DC power to the transmitter.

4. When the transmitter is powered up for the first time, Quick Start screens appear. Quick Start operating tips are as follows:
a. A highlighted field shows the position of the cursor.
b. To move the cursor left or right, use the keys to the left or right of the ENTER key. To scroll up or down or to increase or decrease the value of a digit use the keys above and below the ENTER key. Use the left or right keys to move the decimal point.
c. Press ENTER to store a setting. Press EXIT to leave without storing changes. Pressing EXIT during Quick Start returns the display to the initial start-up screen (select language).
If applicable, choose units of measurement.

For contacting and toroidal conductivity, choose the sensors type and enter the numeric cell constant using the keys.7. Choose temperature units: °C or °F.8. After the last step, the main display appears. The outputs are assigned to default values.

 

Transmitters, Rosemount

Origin Rosemount 3144P Temperature Transmitter

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Origin Rosemount Temperature Transmitter

Origin Rosemount 3144P Temperature Transmitter

specifications

Inputs
User-selectable. See Table 2 on page 9 for sensor options.

Output
2-wire device with either 4–20 mA/HART, linear with temperature or input, or completely digital output with FOUNDATION fieldbus communication (ITK 6.0.1 compliant).

Isolation
Input/output isolation specified to 500 Vdc (500 Vrms 707 V peak) at 50/60 Hz.

Humidity limits
0–99% relative humidity.

Update time
Approximately 0.5 seconds for a single sensor (1 second for dual sensors).

Origin Rosemount Temperature Transmitter

Origin Rosemount 3144P Temperature Transmitter

The Rosemount 3144P Temperature Transmitter (available with

HART or FOUNDATION fieldbus protocols) provides industry-

leading accuracy, stability, and reliability.

The 3144P is designed with a dual-compartment, field-mount

electromechanical configuration, protecting the transmitter

against water intrusion and shielding it from harmful

electromagnetic surges.

A 5-year stability specification and an optional integral

transient protector make the 3144P the most reliable

temperature measurement instrument available.

The Rosemount 3144P has the capability to accept single-

sensor or dual-sensor inputs, which allows the transmitter

to receive simultaneous inputs from two independent sensors.

A dual-sensor configuration can be used for averaging

temperatures, measuring differentials, providing a redundant

temperature measurement, and taking advantage of key

features, such as Hot Backup® and Sensor Drift Alert.

Advanced diagnostics capabilities enable detection of sensor

drift, potential thermocouple sensor or loop degradation,

and enhanced insight into your processes and instrumentation.

The 3144P is available with MID certification for European Custody Transfer.

Contact your salesman for more information.

  • Conduit Connections: Power Module supplied with Intrinsically Safe solution owns 10 years’ life, Sensor terminals permanently fixed to terminal block.
  • Materials of Construction: Electronics Housing is Low-copper aluminum or Stainless Steel; Paint is Polyurethane.
  • Cover O-rings: Buna-N.
  • Terminal Block and Power Module: PBT.
  • Antenna: PBT/Polycarbonate (PC) integrated omnidirectional antenna.
  • Mounting: Transmitters can be attached directly to the sensor.
  • Enclosure Ratings: IP66 and IP67.
Mainboard, FANUC

Fanuc IO mainboard A20B-0008-0240 A20B-1001-0120

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Fanuc IO mainboard A20B-0008-0240 A20B-1001-0120

Fanuc A20B-0008-0240 A20B-1001-0120 Specifications

1. Armored for severe conditions and have the facility for extensive input/output (I/O) arrangements.
2. Read limit switches, analog process variables and the positions of complex positioning systems.
3. Operate electric motors, pneumatic or hydraulic cylinders, magnetic relays, solenoids, or analog outputs.

Fanuc mainboard

Fanuc model list:

A16B-1200-0150 A20B-3300-0687 A20B-2901-0810
A20B-8201-0211 A20B-8101-0376 A20B-2101-0290
A20B-8101-0381 A20B-1008-0091 A16B-1001-0120
A16B-1212-0220 A20B-1008-0092 A87L-0001-0017
A20B-2900-0701 A20B-8100-0800 A20B-0008-0410
A20B-2901-0360 A20B-2102-0491 A20B-1001-0120
A20B-3300-0310 A20B-2102-0500 A16B-2201-0440
A350-3300-T318 A20B-2102-0206 A16B-1211-0302
A20B-3300-0410 A20B-2902-0674 A16B-1110-0500
A20B-2101-0050 A20B-2102-0207 A16B-1211-0301
A20B-2101-0051 A20B-2902-0674 A16B-1010-0050
2102-0080 0081 A20B-2100-0800 A16B-2203-0321
A20B-8200-0581 A20B-8200-0582 A16B-1211-0300
A20B-2101-0710 A16B-3200-0425 A16B-1211-0331
A20B-2902-0671 A20B-8200-0925 A16B-2202-0141
A20B-8102-0011 A20B-8200-0392 A16b-3200-0330
A16B-1000-0030 A20B-8101-0377 A16B-3200-0421
A20B-8200-0791 A20B-8101-0401 A16B-3200-0429
A16B-3200-0767 A20B-8101-0702 A06B-6064-C303
A17B-3301-0106 A16B-2100-0110 A20B-1005-0190
A20b-8200-0395 A20B-2102-0110 A16B-2201-0440
A20B-8100-0660 A20B-8200-0723 A20B-8101-0320
A16B-3200-0219 A16B-3200-0711 A20b-8100-0666
A20B-8002-0260 A16B-1200-0800 A20B-2101-0391
A02B-0303-C231 A20B-1004-0884 A20B-8100-0830
A20B-8201-0088 A06B-6055-H106 A20B-8100-0610
A20B-8201-0081 A20B-8200-0580 A20B-8200-0384
A20B-8102-0010 A16B-3200-0210 A20B-8100-0799
A20B-8201-0083 A16B-2200-0390 A16B-3200-0450
A20b-1003-0020 A20B-8101-0281 A20B-8200-0846
A16B-3200-0780 A20B-8100-0661 A20B-8100-0137
A20B-8100-0665 A20B-2101-0042 A16B-2201-0922 2201-0390
A20B-8200-0724 A20B-3300-0750
A20B-8100-0669 A20B-8101-0350 A20B-3300-0774
A20B-8200-0843 A20B-3300-0478 A16B-2203-0698
A20B-8200-0845 A20B-3300-0390/0391/0392/0394/0395 A16B-1211-0320
A20B-8200-0542 A20B-3300-0280
A20B-8200-0848 A20B-0008-0480
A16B-3200-0600 A20B-3300-0295 A20B-0008-0430
A20B-8200-0721 A16B-1212-0871/15C A20B-2003-0750
A20B-8101-0384 A16B-3200-0521/05C A320-3200-T528/03 A20B-8001-0961
A16b-1110-0521 A20B-3300-0322
A20B-8200-0396 A20B-3300-0641 A20B-3300-0381
A20B-8200-0560 A20B-3300-0363 A20B-8101-0191
A16B-2204-0085 A20B-2001-0931 A20B-2101-0091
A16B-1010-0050/15C A06B-6017-H002 A20B-3900-0286
A20B-8200-0543/0541/0545/0547/0548/0540 A16B-2300-0110 A20B-3300-0766
A20B-2005-0150 A20B-3300-0105
A20B-2102-0645 A20B-8001-0730
A06B-6064-H301#H550 A20B-8100-0650 A16B-2203-0910
A06B-6064-H312#550 A20B-3300-0312 A20B-1003-0080
A06B-6064-H306#H550 A20B-8001-0881 A20B-1003-0090
A20B-0009-0531 A20B-8101-0601 A20B-0008-0240 A20B-1001-0120
A16B-1300-0220/02A A16B-2202-0421
A20B-1003-0010/15B A20B-2001-0930 A20B-8101-0641
A20B-2101-0351 A20B-3300-0301 A20B-2100-0830
A16B-2202-0250 A20B-3300-0283 A20B-2102-0080
A06B-6059-H206#H511 a20b-3900-0286 A16B-2100-0070
A20B-1004-0730 A20B-8100-0271 A20B-1005-0190
A20B-1003-0020/06B A20B-8001-0900 fanucA20B-8101-0170

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