Category: YOKOGAWA

 GENERAL

This GS covers the hardware specifications of the Terminal Block that can be used for Modules with Built-

In Barrier (FIO) of CENTUM VP.

When installing these apparatuses with intrinsically safe circuit, “Explosion Protection” (TI 33Q01J30-01E)

and “Explosion Protection of FIO Products” (IM 33Y06K01-90E) for CENELEC Approval should be

referenced together with this GS.

These terminal blocks are compliant with ISA S71.04 class G3. The temperature range of the module is -20

to 70 °C.

 STANDARD SPECIFICATIONS

Variation of Connection

Terminal blocks are used to connect I/O modules with built-in barriers to field devices. The pressure

clamp terminal

block is available for I/O modules with Built-In Barrier.

ATSA3S Pressure Clamp Terminal Block for Analog Input (8-channel)

ATSS3S Pressure Clamp Terminal Block for Analog Output (8-channel)

ATST4S Pressure Clamp Terminal Block for TC/mV (16-channel)

ATSR3S Pressure Clamp Terminal Block for RTD/POT (8-channel)

ATSB4S Pressure Clamp Terminal Block for Digital Input (16-channel)

ATSD3S Pressure Clamp Terminal Block for Digital Output (8-channel)

ATSA3D Dual-Redundant Pressure Clamp Terminal Block for Analog Input (8-channel)

ATSS3D Dual-Redundant Pressure Clamp Terminal Block for Analog Output (8-channel)

ATST4D Dual-Redundant Pressure Clamp Terminal Block for TC/mV (16-channel)

ATSR3D Dual-Redundant Pressure Clamp Terminal Block for RTD/POT (8-channel)

ATSB4D Dual-Redundant Pressure Clamp Terminal Block for Digital Input (16-channel)

ATSD3D Dual-Redundant Pressure Clamp Terminal Block for Digital Output (8-channel)

 GENERAL

This document describes the hardware specifications of AIP830 Operation Keyboard for Single-loop

Operation for Desktop Type HIS.

It contains an independent USB speaker (a sound function) other than buzzing alarms (buzzer sounds).

An AIP830 keyboard can be used per one Desktop Type HIS.

 STANDARD SPECIFICATIONS

For installation specifications and environmental conditions, which are common to the systems, refer to

the GS “System Overview” (GS 33J01A10-01EN).

• Type: Flat keyboard (Sound Function: USB Speaker)

• PC Interface:

Interface Connector: USB A type x 2 (*1)

Conformable USB standard

Operation Keyboard Function : USB 2.0 (Full-speed, Bus-powered)

Sound Function : USB 1.1 (Full-speed, Bus-powered)

• Input Voltage: 5 V±5 % (Supplied from USB Port of PC)

• Maximum Consumption Current: 1 A

• Weight: Approx. 2.0kg (Without VESA Bracket), Approx. 2.5 kg (With VESA Braceket) (*2)

• Chassis Color: Black (Equivalent to Munsell No. N1.5)

• AIP830 belongs to IEC 61010-1 installation category Class I

(A device not directly connected with the main power supply).

• Operating Environment

Ambient temperature:

5 to 40 °C (for normal operaiton)

-20 to 60 °C (in storage and transportation)

Ambient humidity:

20 to 80 %RH (Non-condensing)

*1: Both connectors must always be connected directly to a computer.

*2: AIP830 with VESA Bracket must be mounted where it holds at least 10 kg of weight.

The YTA710 provides high accuracy, stability, and reliability. 

The housing structure adopts reliable dual-compartment structure.

The sensor input can be choice of single or dual inputs. This input

can accept the RTD, thermocouple, ohm, or DC millivolt. It converts

the sensor input to a 4 to 20mA DC analog signal or Fieldbus digital signal.

HART 7 Protocol, BRAIN Protocol or FOUNDATION™ Fieldbus ITK 6 version

are available. The dual input can accept two sensors calculation of the

differential or average value and the sensor backup function.

Sensor backup functions for automatically switches-over from the primary

to the backup upon sensor failure. By adoption of local parameter switch

on the Indicator, it becomes easy to do the on-site setting work.

YTA710 features include:

• Dual-compartment field-mount housing

• Choice of HART 7. BRAIN Protocol or FOUNDATION™ Fieldbus ITK 6 Protocol

• Local Parameter Setting function (Indicator model)

• Advanced diagnosis

    FEATURES

High    reliability

Dual-compartment housing realizes high resistance

capability to harsh environments.

Variety    of    sensor    inputs

The type of sensor input is user-selectable from

thermocouples (T/C), RTDs, ohms, or DC millivolts.

Digital    communication

HART protocol revision is 7 and FOUNDATION Fieldbus.

The instrument confi guration can be changed by the

user with using the Fieldmate or Handheld terminal.

Local    Parameter    Setting

Parameter confi guration by the push button off ers

easy and quick setup for parameters.

Self-diagnostics    function

Continuous self-diagnostics capability ensures

longterm performance and lower cost of ownership.

Dual    universal    inputs

Dual input can accept two thermocouple, RTD,

ohm or DC millivolt inputs. Diff erential or average

temperature measurement is selectable. The sensor

backup function for automatically switches-over from

the primary to the backup upon sensor failure.

The YTA610 provides high accuracy, stability, and reliability. 

The housing structure adopts reliable dual-compartment structure.

The sensor input can be choice of single or dual inputs. This input

can accept the RTD, thermocouple, ohm, or DC millivolt.

It converts the sensor input to a 4 to 20 mA DC analog signal or

Fieldbus digital signal. HART 7 Protocol or FOUNDATION™ Fieldbus

ITK 6 version are available. The dual input can accept two sensors

calculation of the differential or average value and the sensor backup

function. Sensor backup functions for automatically switches-over from

the primary to the backup upon sensor failure.

By adoption of local parameter switch on the Indicator, it becomes

easy to do the on-site setting work.

YTA610 features include:

• Dual-compartment field-mount housing

• Choice of HART 7. or FOUNDATION™ Fieldbus ITK 6 Protocol

• Local Parameter Setting function (Indicator model)

• Basic diagnosis

The YTA610 is the highly accurate temperature

transmitter that accepts Thermocouple, RTD, ohms or

DC millivolts inputs and converts it to a 4 to 20 mA DC

or Fieldbus signal for transmission.

The YTA610 supports HART and FOUNDATION Fieldbus

communication protocols.

HART type is certifi ed as complying with SIL 2 for

safety requirement.

    FEATURES

High    reliability

Dual-compartment housing realizes high resistance

capability to harsh environments.

Variety    of    sensor    inputs

The type of sensor input is user-selectable from

thermocouples (T/C), RTDs, ohms, or DC millivolts.

Digital    communication

HART protocol revision is 7 and FOUNDATION Fieldbus.

The instrument confi guration can be changed by the

user with using the Fieldmate or Handheld terminal.

Local    Parameter    Setting

Parameter confi guration by the push button off ers

easy and quick setup for parameters.

Self-diagnostics    function

Continuous self-diagnostics capability ensures

longterm performance and lower cost of ownership.

Dual    universal    inputs

Dual input can accept two thermocouple, RTD,

ohm or DC millivolt inputs. Diff erential or average

temperature measurement is selectable. The sensor

backup function for automatically switches-over from

the primary to the backup upon sensor failure.

The YTA310 and YTA320 are the highly accurate

temperature transmitters that accept Thermocouple,

RTD, ohms or DC milivolts inputs and converts it to a

4 to 20 mA DC signal for transmission. The YTA310

is a single sensor input model, and the YTA320 is a

dual input model. Both models support either BRAIN

or HART® communication protocol, and YTA320 also

supports FOUNDATION fieldbusTM.

The YTA310/320 in their standard configuration, with

the exception of the Fieldbus type, are certified by

TÜV as complying with SIL 2 for safety requirement.

For the specifications of Fieldbus communication type

marked with “◊”, refer to GS 01C50T02-00EN.

 FEATURES

Outstanding performance

Microprocesser-based sensing technology ensures

high accuracy and reliability.

High reliability

Dual-compartment housing realizes high resistance

capability to harsh environments and the YTA310/320

have SIL2 capability for safety requirement.

Variety of sensor inputs

The type of sensor input is user-selectable from

thermocouples (T/C), RTDs, ohms, or DC milivolts.

Digital communication

BRAIN or HART® communication protocol is

available. The insturment configuration can be

changed by the user with using the BT200 or HART®

communicator.

Self-diagnostics function

Continuous self-diagnostics capability ensures

longterm performance and lower cost of ownership.

LCD display with bargraph

The LCD display provides both a digital readout and

percent bargraph simultaneously.

Dual universal inputs (Model YTA320)

The YTA320 can accept two thermocouple, RTD,

ohm or DC milivolt inputs. Differential or average

temperature measurement is selectable. The sensor

backup function for automatically switches-over from

the primary to the backup upon sensor failure.

The YTA110 is the high performance temperature

transmitter that accepts Thermocouple, RTD, ohms or

DC milivolts inputs and converts it to a 4 to 20 mA DC

signal for transmission. The YTA110 supports either

BRAIN or HART communication protocol.

The YTA110 in it standard configuration is certified by

TÜV as complying with SIL2 for safety requirement.

 FEATURES

High performance

Microprocesser-based sensing technology ensures

long-term accuracy and high reliability.

High reliability

Dual-compartment housing realizes high resistance

capability to harsh environments, and YTA110 has

SIL2 capability for safety requirement.

Variety of sensor inputs

The type of sensor input is user-selectable from

thermocouples (T/C), RTDs, ohms, or DC milivolts.

Digital communication

BRAIN or HART® communication protocol is

available. The insturment configuration can be

changed by the user with using the BT200 or HART

communicator.

Self-diagnostics function

Continuous self-diagnostics capability ensures

longterm performance and lower cost of ownership.

LCD display with bargraph

The LCD display provides both a digital readout and

percent bargraph simultaneously.

 STANDARD SPECIFICATIONS

■ PERFORMANCE SPECIFICATIONS

Accuracy

(A/D accuracy/span + D/A accuracy) or ± 0.1 % of

calibrated span, whichever is greater.

See Table 1. on page 3.

Cold Junction Compensation Accuracy

(For T/C only)

± 0.5°C (± 0.9°F)

Ambient Temperature Effect (per 10°C change)

± 0.1 % or ± (Temperature Coefficient /span),

whichever is greater. See Table 2. for Temperature

Coefficient.

Stability

RTD:

± 0.1% of reading or ± 0.1°C per 2 years,

whichever is greater at 23±2°C.

T/C:

± 0.1% of reading or ± 0.1°C per year, whichever

is greater at 23±2°C.

5 Year Stability

RTD:

± 0.2% of reading or ± 0.2°C, whichever is

greater at 23±2°C.

T/sC:

± 0.4% of reading or ± 0.4°C, whichever is

greater at 23±2°C.

Power Supply Effect

± 0.005% of calibration span per volt

Vibration Effect

10 to 60 Hz 0.21 mm peak displacement

60 to 2000 Hz 3G

Position Effect

None

■ FUNCTIONAL SPECIFICATIONS

Input

Input type is selectable: Thermocouples, 2-, 3-, and

4-wire RTDs, ohms and DC milivolts. See Table 1. on

page 3.

Span & Range Limits

See Table 1. on page 3.

Input signal source resistance (for T/C, mV)

1 kΩ or lower

Input lead wire resistance (for RTD, ohm)

10 Ω per wire or lower

Since delivering the world’s first distributed control system (DCS) in 1975. Yokogawa has supplied globally

more than 30.000 DCSs of unsurpassed reliability and availability for control and protection. Today, Yokogawa’s

turbine control solutions are used for a wide range of turbines from small to large utility steam turbines,

boiler feed pump turbines, industrial gas turbines, mechanical drive turbines, hydro turbines, wind turbines,

synchronous modifiers, and more.

Integrated platform for the entire plant

An integrated system enables seamless operation via a common interface for an entire power plant encompassing the boilers,

burner management systems, balance of plant, and turbine systems. Servo and protection modules handle the critical turbine

control together with standard DCS hardware, while Yokogawa’s safety system protects the turbine. In terms of security,

ISASecure-certified controllers ensure safe operation.

Project execution

Yokogawa is highly experienced in projects to retrofit mechanical turbine governors and dedicated controllers for turbine control.

Supply, installation and commissioning encompass speed sensors, their brackets, hydraulic trip block systems, hydraulic actuators,

oil filters, turbine supervisory instrumentation, synchronizers, automatic voltage regulators and oil purification systems. Even

when replacing equipment supplied by the turbine manufacturer as part of the turbine units, Yokogawa can successfully upgrade

obsolete controls to leading-edge systems.

For new generation units, we are experienced in implementing turbine protection and control functions for their respective

turbine suppliers to realize integrated power plant control systems for users.

Extensive support for secure operation

Our 230 local service offices in 80 countries offer extensive support for users. Through your nearest service office, Yokogawa can

provide cost-effective service and maintenance spares for both plant and turbine control systems. Above all, as the world’s pioneer

of DCSs, Yokogawa supports both plant and turbine control systems over the long term, keeping your systems up to date and

protected against malicious cyberattacks as the world evolves.