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Private Label
83A Vortex Flow
Method:
Type:
 
The 8700 series magnetic flowmeter system, consisting of an 8701 magnetic flowtube, signal cable and an 8712C series transmitter, measures flow rate of conductive liquids, and transmits a proportional electrical signal.
Rosemount
8712c Magnetic Flow Transmitter
Method:
Type: Transmitter
 
The 3051 Series SMART® Transmitters are offered in a variety of configurations for differential, gauge, liquid-level, flow and specific gravity measurement applications.
Rosemount
3051CD Transmitter
Method: Electronic
Type: Differential Pressure for flow or level measurement
 
The 3051 Series SMART® Transmitters are offered in a variety of configurations for differential, gauge, liquid-level, flow and specific gravity measurement applications.
Rosemount
3051CG Transmitter
Method: Electronic
Type: Gauge Pressure
 
The 3051 Series SMART® Transmitters are offered in a variety of configurations for differential, gauge, liquid-level, flow and specific gravity measurement applications.
Rosemount
3051TG Transmitter
Method: Electronic
Type: Guage Pressure
 
The 3051 Series SMART® Transmitters are offered in a variety of configurations for differential, gauge, liquid-level, flow and specific gravity measurement applications.
Rosemount
3051L Transmitter
Method: Electronic
Type: Flanged-mounted Liquid Level for open or closed tank application
 
The 1151 Alphaline® Pressure Transmitters are offered in a variety of configurations for differential, gauge, absolute, liquid-level, flow and specific gravity measurement applications.
Rosemount
1151AP Transmitter
Method: Electronic
Type: Absolute Pressure
 
The 1151 Alphaline® Pressure Transmitters are offered in a variety of configurations for differential, gauge, absolute, liquid-level, flow and specific gravity measurement applications.
Rosemount
1151GP Transmitter
Method: Electronic
Type: Pressure
 
The 1151 Alphaline® Pressure Transmitters are offered in a variety of configurations for differential, gauge, absolute, liquid-level, flow and specific gravity measurement applications.
Rosemount
1151HP Transmitter
Method: Electronic
Type: Differential Pressure for High Line Pressure
 
The 1151 Alphaline® Pressure Transmitters are offered in a variety of configurations for differential, gauge, absolute, liquid-level, flow and specific gravity measurement applications.
Rosemount
1151DP Transmitter
Method: Electronic
Type: Differential Pressure
 
The 1151 Alphaline® Pressure Transmitters are offered in a variety of configurations for differential, gauge, absolute, liquid-level, flow and specific gravity measurement applications.
Rosemount
1151LT Transmitter
Method: Electronic
Type: Liquid Level
 
The 1151 Alphaline® Pressure Transmitters are offered in a variety of configurations for differential, gauge, absolute, liquid-level, flow and specific gravity measurement applications. Typical Application: Draft Range Differential Pressure for flow or level measurement.
Rosemount
1151DR Transmitter
Method: Electronic
Type: Draft Range Differential Pressure
 
The 1144A and 1144G Series Transmitters measure Absolute and Gauge pressure and transmit a proportional electrical signal.
Rosemount
1144A Transmitter
Method: Electronic
Type: Absolute and Gauge Pressure
 
The 1144A and 1144G Series Transmitters measure Absolute and Gauge pressure and transmit a proportional electrical signal.
Rosemount
1144G Transmitter
Method: Electronic
Type: Absolute and Gauge Pressure
 
The 3144D SMART® Temperature Transmitters accept a user-selectable RTD, thermocouple, millivolt, or ohm input and transmit a proportional digital HART-based electrical signal.
Rosemount
3144D SMART® Transmitter
Method: Electronic
Type: Temperature
 
The 444 Series Alphaline® Temperature Transmitters accept an RTD, thermocouple or millivolt input and transmit a proportional electrical signal.
Rosemount
444 Alphaline® Field Mounted Transmitter
Method: Electronic
Type: Temperature
 
The pneumatic pressure transmitters measure differential, gauge, or hydrostatic head of liquid pressure and transmit a proportional pneumatic output signal.
Foxboro
13A, 13H, 15A Transmitter
Method: Pneumatic
Type: Differential Pressure
 
The pneumatic pressure transmitters measure differential, gauge, or hydrostatic head of liquid pressure and transmit a proportional pneumatic output signal.
Foxboro
13F, 13FE Transmitter
Method: Pneumatic
Type: Liquid Level or Density Differential Pressure
 
The pneumatic pressure transmitters measure differential, gauge, or hydrostatic head of liquid pressure and transmit a proportional pneumatic output signal.
Foxboro
11DM Transmitter
Method: Pneumatic
Type: Differential Pressure
 
The pneumatic pressure transmitters measure differential, gauge, or hydrostatic head of liquid pressure and transmit a proportional pneumatic output signal.
Foxboro
11GM Transmitter
Method: Pneumatic
Type: Gauge Pressure
 
The I/A Series® Electronic Transmitters provides mesurement of differential, gauge or absolute pressure and transmits a proportional electrical signal.
Foxboro
IGP20/IAP20 Transmitter
Method: Electronic
Type: Guage or Absolute
 
The E96 Series Transmitter, along with the 2800 Series Magnetic Flowmeter and Signal Cable, measure flow rate of conductive liquids and transmits a proportional electrical signal.
Foxboro
E96 Transmitter
Method:
Type:
 
The 823DP Electronic Differential Pressure Transmitters measure differential pressure and transmit a proportional electrical signal.
Foxboro
823DP Transmitter
Method: Electronic
Type: Differential Pressure
 
The I/A Series® Electronic Transmitters provides mesurement of differential, gauge or absolute pressure and transmits a proportional electrical signal.
Foxboro
IGP10/IAP10 Transmitter
Method: Electronic
Type: Guage or Absolute
 
The I/A Series Electronic Transmitters provides measurements of differential, guage or absolute pressure and and transmits a proportional electrical signal
Foxboro
IDP10 Transmitter
Method: Electronic
Type: Differential Pressure
 


Private Label
RTT20 Transmitter
Method:
Type: Temperature
 


Private Label
I/A Transmitter
Method: Electronic
Type:
 
The ST3000 Series Smart Pressure Transmitters measure differential, gauge or absolute pressure and transmit a proportional electrical signal.
Honeywell
STA 3000 Transmitter
Method: Electronic
Type: Absolute Pressure
 
The ST3000 Series Smart Pressure Transmitters measure differential, gauge or absolute pressure and transmit a proportional electrical signal.
Honeywell
STG 3000 Transmitter
Method: Electronic
Type: Gauge Pressure
 
The ST3000 Series Smart Pressure Transmitters measure differential, gauge or absolute pressure and transmit a proportional electrical signal.
Honeywell
STD 3000 Transmitter
Method: Electronic
Type: Differential Pressure
 
The Rosemount 3311 Series I/P Transducer converts an electronic signal into a specified proportional pneumatic signal.
Rosemount
3311 Transducer
Method: Electro-Pneumatic
Type:
 
The Rosemount 1135 Pneumatic to Current Converter converts a pneumatic signal into a proportional electrical signal.
Rosemount
1135 Transducer
Method: Pneumatic-Current
Type:
 
The Fisher type 546 Series Electro-Pneumatic Transducer receives a direct-current input signal and converts the signal to proportional pneumatic output signal.
Fisher
546 Transducer
Method: Electro-Pneumatic
Type:
 
The Fisher 846 Series I/P Transducer converts an electronic signal into a specified proportional pneumatic signal.
Fisher
846 Transducer
Method: Electro-Pneumatic
Type:
 
The 101 and 102 Series Pneumatic Shelves are used for mounting 100 Series Pneumatic Controllers, Recorders, Indicators and Auxiliary Stations.
Foxboro
101 Shelves
Method: Pneumatic
Type:
 
The 101 and 102 Series Pneumatic Shelves are used for mounting 100 Series Pneumatic Controllers, Recorders, Indicators and Auxiliary Stations.
Foxboro
102 Shelves
Method: Pneumatic
Type:
 
The 54 Pneumatic CONSOTROL® Recorders continuously record up to three process measurements received as standard pneumatic transmission signals from remote transmitters. The 54 Pneumatic CONSOTROL® Recording Control Stations are pneumatic receivers for centralized panel control operating on standard pneumatic transmission signals and are for use with 58 Series controllers. The 54 Series Instruments pull out from a permanently flush, panel-mounted housing.
Foxboro
54 Recorder
Method: Pneumatic
Type: CONSOTROL® Recording Control Station and
 
The 120 Series Pneumatic CONSOTROL® Recorder can record up to four process measurements received as standard pneumatic transmission signals from remote transmitters
Foxboro
120 Recorder
Method: Pneumatic
Type: CONSOTROL®
 
The 3582 Series pneumatic valve positioners and the Type 3582i electro-pneumatic valve positioners, are used with diaphragm-actuated, sliding-stem control valve assemblies. The pneumatic valve positioners receive a pneumatic input signal from a control device and modulate the supply pressure to the control valve actuator, providing an accurate valve stem position that is proportional to the pneumatic input signal.

Fisher
3582I Positioner
Method:
Type: Electro-Pneumatic
 
The 3582 Series pneumatic valve positioners and the Type 3582i electro-pneumatic valve positioners, are used with diaphragm-actuated, sliding-stem control valve assemblies. The pneumatic valve positioners receive a pneumatic input signal from a control device and modulate the supply pressure to the control valve actuator, providing an accurate valve stem position that is proportional to the pneumatic input signal.

Fisher
3582 Positioner
Method:
Type: Pneumatic
 
The 3600 Series Valve Positioner accepts a pneumatic or milliampere input signal to adjust the valve shaft to the correct position for the specific input signal applied. For use on Fisher Controls Control Valves with butterfly or ball valve bodies and rotary actuators.
Fisher
3600 Positioner
Method: Pneumatic or milliampere
Type:
 
The 8700 series magnetic flowmeter system, consisting of an 8701 magnetic flowtube, signal cable and an 8712C series transmitter, measures flow rate of conductive liquids, and transmits a proportional electrical signal.
Rosemount
8705/8712C Flowmeter
Method: Magnetic
Type:
 
The 8700 series magnetic flowmeter system, consisting of an 8701 magnetic flowtube, signal cable and an 8712C series transmitter, measures flow rate of conductive liquids, and transmits a proportional electrical signal.
Rosemount
8711 Flowmeter
Method: Magnetic
Type:
 
The 8700 series magnetic flowmeter system, consisting of an 8701 magnetic flowtube, signal cable and an 8712C series transmitter, measures flow rate of conductive liquids, and transmits a proportional electrical signal.
Rosemount
8701 Flowmeter
Method: Magnetic
Type:
 
The 2800 Series Magnetic Flowmeter, consisting of a flowtube, signal cable and an E96 Series Transmitter; measure flow rate of conductive liquids and transmits a proportional electrical signal.
Foxboro
2800 Flowmeter
Method: Magnetic
Type:
 
The 8000A Series Magnetic Flowtubes are designed to measure flow rate of electrically conductive liquids and produce a measurement signal directly proportional to volumetric flow rate
Private Label
8000A Flowmeter
Method: Magnetic
Type:
 


Private Label
9000 Flowmeter
Method: Magnetic
Type:
 


Various
Capillaries and Custom Diaphragm Seals Custom Diaphragm Seals
Method:
Type:
 
The 130M, 130F, 130P and 130Z Series Pneumatic CONSOTROL® Indicating Controllers compare a remote transmitter signal with a set point and produce a control signal to a final actuator.
Foxboro
130Z Controller
Method: Pneumatic
Type: CONSOTROL® Indicating
 
The 130M, 130F, 130P and 130Z Series Pneumatic CONSOTROL® Indicating Controllers compare a remote transmitter signal with a set point and produce a control signal to a final actuator.
Foxboro
130F Controller
Method: Pneumatic
Type: CONSOTROL® Indicating
 
The 130M, 130F, 130P and 130Z Series Pneumatic CONSOTROL® Indicating Controllers compare a remote transmitter signal with a set point and produce a control signal to a final actuator.
Foxboro
130P Controller
Method: Pneumatic
Type: CONSOTROL® Indicating
 
The 130M, 130F, 130P and 130Z Series Pneumatic CONSOTROL® Indicating Controllers compare a remote transmitter signal with a set point and produce a control signal to a final actuator.
Foxboro
130M Controller
Method: Pneumatic
Type: CONSOTROL® Indicating
 
The 40P and 40M Series Recording and Indicating Pneumatic Controllers receive a mechanical input from an integrally mounted measuring element, compare it to a set point and produce a pneumatic output signal

Foxboro
40M Controller
Method: Pneumatic
Type: Recording or Indicating
 
The 40P and 40M Series Recording and Indicating Pneumatic Controllers receive a mechanical input from an integrally mounted measuring element, compare it to a set point and produce a pneumatic output signal

Foxboro
40P Controller
Method: Pneumatic
Type: Recording or Indicating
 
The 760 and 761 Series SINGLE STATION MICRO® Controllers are self-contained, multipurpose, microprocessor-based controllers. The basic 760 Series is for simple to moderately complex applications. The 761 Series has the capability of the 760 Series plus the functional capacity required for more complex control schemes.
Foxboro
761 Controller
Method:
Type: SINGLE STATION MICRO®
 
The 760 and 761 Series SINGLE STATION MICRO® Controllers are self-contained, multipurpose, microprocessor-based controllers. The basic 760 Series is for simple to moderately complex applications. The 761 Series has the capability of the 760 Series plus the functional capacity required for more complex control schemes.
Foxboro
760 & 761 Controller
Method:
Type: SINGLE STATION MICRO®
 
The 58 Series Pneumatic Controllers accept Pneumatic signals for both set point and measurement; and, as a function of the control mode, produce an output signal to modulate a final operator. The controllers are for use with 53 and 54 Series Control Stations.

Foxboro
58 Controller
Method: Pneumatic
Type:
 
The 52A Series Pneumatic Indicating Controllers accept a measurement from a remote transmitter; compare it to a set point; and, as a function of the control mode, produce and output signal to modulate a final operator.
Foxboro
52A Controller
Method: Pneumatic
Type: Indicating
 
The 230S Control Display Stations are used with SPEC200® Control Units to provide an output signal for process control, a visual indication of the set point, measurement and output values, and the controls of operator adjustment of the set point and output signals
Foxboro
Spec 200® 230S Controller
Method: Electronic
Type:
 
The 230S Control Display Stations are used with SPEC200® Control Units to provide an output signal for process control, a visual indication of the set point, measurement and output values, and the controls of operator adjustment of the set point and output signals
Foxboro
Spec 200® 235S Controller
Method: Electronic
Type:
 
The 110 Series Pneumatic CONSOTROL® Indicators indicate 1, 2 or 3 process measurements received as proportional pneumatic signals from remote transmitters.
Foxboro
110 Controller
Method: Pneumatic
Type: CONSOTROL® Indicating
 
The 43AP Pneumatic Indicating Controllers continuously indicate and control pressure, vacuum, temperature or flow.
Foxboro
43AP Controller
Method: Pneumatic
Type: Indicating
 
The 4150/4160 Series Pneumatic controllers receive a mechanical input form an integrally mounted bellows element or bourdon tube, compare it to a set point and produce a pneumatic output signal.
Fisher
4150 Controller
Method: Pneumatic
Type:
 
The 4150/4160 Series Pneumatic controllers receive a mechanical input form an integrally mounted bellows element or bourdon tube, compare it to a set point and produce a pneumatic output signal.
Fisher
4160 Controller
Method: Pneumatic
Type:
 
The DVC Series Digital Valve Controllers are communicating, microprocessor-based current-to-pneumatic instruments. In addition to the traditional function of converting a current signal to a valve-position pressure signal, DVC Series Digital Valve Controllers, using HART commmunications protocol, give access to information critical to process operation. The DVC6000 can be used with single-acting or double-acting actuators.
Fisher
DVC6000 Controller
Method:
Type:
 
The DVC Series Digital Valve Controllers are communicating, microprocessor-based current-to-pneumatic instruments. In addition to the traditional function of converting a current signal to a valve-position pressure signal, DVC Series Digital Valve Controllers, using HART commmunications protocol, give access to information critical to process operation. The DVC5000 can be used with single-acting actuators.
Fisher
DVC5000 Controller
Method:
Type:
 
The Moore Products 352 Series Single-Loop Controllers are stand-alone, microprocessor based industrial controllers with both basic and expanded versions available for use in a broad range of general-purpose applications.
Moore
352 Controller
Method:
Type: Single-Loop
 
E-Series Sliding Stem Globe, Rotary, Butterfly (Other Stock Available)
Fisher
9500 Butterfly Control Valve
Method:
Type:
 
Fisher Vee-Ball ® valves use the time-proven V-notch ball that provides high-capacity control of liquid, gas, steam, and fibrous slurries. The shearing action of the ball allows smooth, non-clogging operation, and the unrestricted, straight-through flow ensures high capacity. Available from Automation Service in corrosion resistant materials, in sizes from 1
Fisher
Vee-Ball Control Valve
Method:
Type:
 
E-Series Sliding Stem Globe, Rotary, Butterfly (Other Stock Available)
Fisher
V200 Control Valve
Method:
Type:
 
E-Series Sliding Stem Globe, Rotary, Butterfly (Other Stock Available)
Fisher
8500 Butterfly Control Valve
Method:
Type:
 
E-Series Sliding Stem Globe, Rotary, Butterfly (Other Stock Available)
Fisher
V500 Control Valve
Method:
Type:
 
E-Series Sliding Stem Globe, Rotary, Butterfly (Other Stock Available)
Fisher
V100 Control Valve
Method:
Type:
 
Rotary Style. (Different configurations available. Call for details.)
Fisher
V150 Control Valve
Method:
Type:
 
Long a standard in process control, Fisher E-Body Valves provide excellent: <br><br> Economy -- Modular design cuts spare part inventory costs. Application Flexibility -- Available from Automation Service in sizes from 1/2
Fisher
E-Body Slide Stem Globe Control Valve
Method:
Type:
 
The 135 Series Stations are complementary auxiliary units for the 100 Series Control Systems
Foxboro
135B Auxiliary Station
Method: Auto/Manual
Type: Switching and Bias
 
The 135 Series Stations are complementary auxiliary units for the 100 Series Control Systems
Foxboro
135Z Auxiliary Station
Method:
Type: Ratio
 
The 135 Series Stations are complementary auxiliary units for the 100 Series Control Systems
Foxboro
135S Auxiliary Station
Method: Auto/Manual
Type: Switching
 
The 135 Series Stations are complementary auxiliary units for the 100 Series Control Systems
Foxboro
135 Auxiliary Station
Method: Manual
Type: Loading
 


Various
Accessories and Parts Accessories and Parts
Method:
Type:
 
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