High performance 1/16 DIN size temperature controller FB100
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High accuracy : 0.1% , Selectable sampling time
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Compliance

ECO mark RoHS compliant CE marking CE Marking UL mark UL, cUL RCM mark RCM Mark Reinforced insulation Reinforced insulation

Specifications

Input
Type FB100 temperature controller Input

Control
Type FB100 temperature controller control

Position Proportional Control
Type FB100 temperature controller position proportional control

Performance
Type FB100 temperature controller performance

Output
Type FB100 temperature controller output

Digital Output (DO)
Type FB100 temperature controller Digital output (DO)

Multi-Memory Area (recipe)
Type FB100 temperature controller Multi-Memory Area

Event (Alarm)
Type FB100 temperature controller Event Alarm

Heater Break Alarm (HBA) : Optional
Type FB100 temperature controller Heater Break Alarm (HBA)

Digital Input (DI) : Optional
Type FB100 temperature controller Digital Input (DI)

Remote Setpoint Input : Optional
Type FB100 temperature controller Remote Setpoint Input

Analog Retransmission Output (AO) : Optional
Type FB100 temperature controller Analog Retransmission Output

Feedback Resistance (FRB) Input : Optional
Type FB100 temperature controller Feedback Resistance Input

Communicaitons : Optional
Type FB100 temperature controller Communications

Inter-controller Communication : Optional
Type FB100 temperature controller Inter-controller communication

Loader Communication
Type FB100 temperature controller Loader Communication

Waterproof/Dustproof
Type FB100 temperature controller Waterproof/Dustproof

General Specifications
Type FB100 temperature controller General Specifications

Dimensions

Unit : mm
Temperatuer controller FB100 External Dimensions
Temperatuer controller FB100 Panel cutout
Waterproof/dustproof is not available for close horizontal mounting.

Model and Suffix Code

Temperature controller FB100 model and suffix code
Default setting
· Digital output (DO1, DO2) : Standard function
*1: When Heat Control or Cool Control is selected, output 2 is available for Event Output, HBA Output and FAIL Output.
See Output Allocation Table
*2: See Digital Input (DI) Allocation Table
*3: When HBA (heater break alarm) is used , select the "CT input" from the model code.

Output Code Table
Temperature controller FB100 output code table

Input Code Table
Temperatuer controller FB100 Input Code Table

Quick Start Code

Quick start code tells the factory to ship with each parameter preset to the values detailed as specified by the customer.
Quick start code is not necessarily specified when ordering, unless the preset is requested.
These parameters are software selectable items and can be re-programmed in the field via the manual.
temperature controller FB100 Quick start code
Default setting when no quick start code is specified.
CT type : CTL-6-P-N
Communication 2 :ANSI/RKC standard protocol
Communication 2 is for inter-controller communication.
Output Allocation Table
Temperature controller FB100 Output allocation table
  • Energized/De-energized is configurable except for the FAIL output. (Factory default setting: Energized)
<Caution>
  • Invalid for a non-existing output/input function.
  • When used as heating/cooling control/position proportioning control, select any code of 01 to 07.
  • Remote/Local transfer can be done during cascade control and ratio control by inter-controller communication.
Digital input (DI) Allocation Table
Temperature controller FB100 Digital input (DI) allocation table

Example of Model Code and Quick Start Code
Example Specifications
Input : Thermocouple K 0.0 to 400.0°C
Control method : PID control for heating (Output : 4 to 20mA DC)
Digital Output (Alarm) : 2 points (Deviation High, Deviation Low)
Analog retransmission output : 0 to 10V DC
Digital input : 1 point (RUN/STOP)
Example of model code

Example of Quick start code
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High accuracy : 0.1%

Measuring accuracy
Thermocouple Type : K, J, T, E, PLII, U, L
Less than -100°C (-148°F) : ±1.0°C (±1.8°F)
-100 to +500°C (-148 to 932°F) : ±0.5°C (±0.9°F)
More than 500°C (932°F): ±(0.1% of reading + 1 digit)
ホワイトライン
Type : N, S, R, W5Re/W26Re
Less than 0°C (32°F) : ±2.0°C (±3.6°F)
0 to 1000°C (32 to 1832°F) : ±1.0°C (±1.8°F)
More than 1000°C (1832°F): ±(0.1% of reading + 1 digit)
ホワイトライン
Type : B
Less than 400°C (752°F) : ±70.0°C (±126°F)
400 to 1000°C (752 to 1832°F) : ±(1.4°C + 1digit) [±(2.5°F + 1digit)]
More than 1000°C (1832°F): ±(0.1% of reading + 1 digit)
ホワイトライン
Cold junction temperature compensation error
±1.0°C (1.8°F) [Between 5 and 40°C (41 and 104°F)]
±1.5°C (2.7°F) [Between -10 and 5°C (16 and 41°F), and 40 and 50°C (104 and 122°F)]
ホワイトライン
RTD Less than 200°C (392°F): ±0.2°C (±0.4°F)
More than 200°F(392°F) : ±(0.1% of reading + 1 digit)
ホワイトライン
DC voltage and DC current
±(0.1% of span)

Selectable sampling time among 50ms, 100ms, and 250ms.
Selectable sampling time makes the FB Series suitable for any application ranging from pressure control requiring fast response to precise control requiring highest resolution. The selections are 100ms (factory setting) usually suitable for most of standard applications, 50ms for fast response applications, and 250ms for precise control requiring high-resolution. The PID parameters can be set in 1/10 unit which supports fast and accurate control. Ramp-to-setpoint and output-change-limiter functions are each settable for UP and DOWN so that a special heater can be controlled precisely.

250ms sampling controller 50ms sampling controller
250ms sampling controller explanation drawing 50ms sampling controller explanation drawing



Selectable PID control algorithm
PID control algorithm is selectable in the FB Series to achieve the most precise control for various applications.
PV Derivative PID : suitable for fixed setpoint control (Factory setting)
Deviation Derivative PID : suitable for ramp control using ramp-to-setpoint function and cascade control.

PV derivative type PID control Deviation derivative type PID control
Most adaptive to conventional fixed value control Most adaptive to conventional fixed value control
PV derivative type PID control explanation drawing Deviation derivative type PID control explanation drawing



Advanced Heat/Cool PID algorithm with Undershoot Suppression
Advanced Heat/Cool PID algorithm achieves stable control by the Undershoot Suppression (USS) function, and independent P-I-D settings for both Heat and Cool which are effective for applications with strong cooling gain. Control Response type selection is settable to avoid overshoot at start-up and against external disturbance. The FB Series also offers selection of water cool and air cool PID control algorithm.

Control response parameter USS (Under Shoot Suppression) gain
Control response parameter explanation drawing USS (Under Shoot Suppression) gain explanation drawing

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Blue Mark Go to FB100 top page FB100 high performance controller
Red Mark Easy maintenance Plug-in
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Panel space saving 74mm depth ECO mark
Red Mark Numerous inputs and outputs
Red Mark Inter-controller Communication
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Blue Mark Auto-temperature-rize with Learning Function
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Blue Mark Temperature Ratio Setting
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Blue Mark Cascade Control
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Blue Mark Group RUN/STOP Function
Red Mark Recipe Function (Multi-memory Area)
Red Mark Ramp/Sork Program Control
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Startup tuning ECO mark
Red Mark Easy parameter setup via USB loader port
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