Operation Manual

Thermo-con

HEC*05W-**

HEC105W-1A,-1B,-2A,-2B,-4A,-4B

HEC205W-1A,-1B,-2A,-2B,-4A,-4B

Rev.8 February.2007.

SMC CORPORATION

A_HEC-OM-B021

i

Ｃｏｎｔｅｎｔｓ １.For Safety

２.Introduction ３.Special Caution

1) Ambient Environment and Mounting Conditions 2) Power Supply / Grounding 3) Conditions for Radiating Water 4) Conditions of Constant Temperature Circulating Water 5) Alarm Contact Output 6) Maintenance 7) Transportation and Movement

４.Specifications ５.Function

1) Auto-tuning Function 2) Offset Function 3) Learning Control Function 4) External Tuning Control Function 5) Sensor Fine Control Function 6) Setting Value Memory Function 7) Serial Communication Function 8) Upper/lower Temperature Limit Alarm Function 9) Output Cutoff alarm Function

６.How to Order ７.Outside Dimensions ８.Electric Circuit Diagram ９.Performance Chart

1) Cooling Performance (HEC105W) 2) Heating Performance (HEC105W) 3) Cooling Performance (HEC205W) 4) Heating Performance (HEC205W) 5) Pumping Performance 6) Pressure Loss of Radiating Water

１０.Name and Function of Each Part

10－1.Main Parts 10－2.Details of Display/Operation Panel

1

2

3 3 3 3 4 4 4

5

6 6 6 6 6 6 7 7 7

7

8

8 ９ ９ 10 10 11 11

12 13

ii

１１.Preparation and Operation

11－1.Cautions for Installation 11－2.Preparation for Radiating Water 11－3.Preparation of Constant Temperature Circulating Water 11－4.Connection of Each Connector and Power Supply Plug 11－5.Starting Operation 11－6.Setting Value 11－7.Cautions for Operation Control

１２.How to Operate Controller

12－1.How to Set Data 12－2.Selecting Front Mode 12－3.Details of Front Mode 12－4.Selecting Back Mode 12－5.Details of Back Mode 12－6.Selecting Second Back Mode 12－7.Details of Second Back Mode 12－8.Default Value of Each Mode

１３.Contents of Alarm

13－1 Alarm 12－2 Countermeasure of Alarm

１４.Specification of Connectors

１５.How to Find Dew Point(from a psychrometric chart)

14 14 14 15 15 16 16

17 17 18 20 21 23 23 24

25 26

28

29

1

This product is designed fully considering safety, however, wrong handling will lead to electric shock or other accidents and it is dangerous. Please be sure to follow the precautions stated below to prevent from accidents.

１．Ｆｏｒ Ｓａｆｅｔｙ

Operation by Specialist

Operate by a person who has enough knowledge and experience about the device.

Follow Instructions for Safety Read instructions in this operation manual carefully.

Inspect Regularly Inspect regularly to avoid operating with failure.

Stop Operation if Failure is Found If failure is found, stop operation and ask our distributors, or sales offices /branches for repair.

In Case Something is Wrong!

Abnormal noise, smell ① Turn off power supply. Smoking → ② Stop water supply. Water leak ③ Ask our distributors, or sales office/branches

for repair.

Meaning of Warning Mark

The following mark is indicated in this operation manual. After understanding the contents of indication, read the sentences. Warning If instructions with this indication are not followed, electric shock or injuries by other accidents and damages to surrounding devices will occur.

２

Thank you very much purchasing Thermo-con. We have always been trying to provide customers with high performance temperature control devices with highest quality applying our original technology. Please read carefully this operation manual before starting operation to make good use of performance and function of this product. Please keep this operation manual carefully to be able to refer to it at any time. In case of using communication, please request us “Communication Specifications”.

Ｃａｕｔｉｏｎｓ (1) Reprinting and reproduction of all parts or a part of this manual are strictly prohibited without notice. (2) The contents of this manual including specifications may subject to change without notice.

(3) We take all possible measures to make this manual, please make contact with our sales offices and branches described at the back of this manual if any unclear points or mistakes are found. (4) We cannot guarantee results of practical use of this product regardless of items (2) and (3).

２．Ｉｎｔｒｏｄｕｃｔｉｏｎ

３

1) Ambient Environment and Mounting Conditions

(１)Avoid operating under the following environment. ①Conditions that liquids (including mist) such as water, brine and oil are splashed. ②Places where fine particles and dust are found. ③Places where corrosive gas, solvent and inflammable gas are contained.

(This product is not explosion proof construction) ④Places where direct sunlight and radiation heat are given. ⑤Places where ambient temperature is out of the range of 10－35℃ ⑥Places where fluctuation of temperature is remarkable. ⑦Conditions that dew is formed.(If setting temperature is low, dew may be formed on the piping surface.) ⑧Places where strong electromagnetic noise is generated. (where strong electric field, strong magnetic field and surge are generated.) ⑨Places where static electricity is discharged and condition that static electricity are discharged to the body. ⑩Places where strong high frequency is generated. ⑪Conditions that strong vibration and shock are transmitted. ⑫Conditions that force and weight which deform the body are given.

(２)Thermo-con is not designed for clean room applications. There is dust generation from pump in Thermo-con. (３)Each set point is written on to EEROM, however the number of over write possible is no more than 100000

times. Please pay attention to the number of overwrites especially when using communication function. 2) Power Supply / Grounding

(1) Supply power which is in accordance with the specifications. (2) Be sure to ground(FG, frame ground) and apply the specification.(Grounding resistance is less than 100Ω)

Grounding can be done by cord for power supply. Do not use to ground devices which generate strong electric magnetic noise or high frequency.

3) Radiating Water

(1) Radiating water should be clean water like tap water. If radiating water is circulated, water quality control to avoid damaging material (SUS304) contacting to radiating water circuit is required.

(2) Do not operate this device without flowing radiating water or with very little water flowing rate. If it is operated in such conditions, temperature of radiating water may be reached about 90℃. When resin tube is connected, it is in danger of softening and exploding. Flow the right amount of radiating water after cooling naturally not to explode.

(3) Radiating water of a low temperature makes dew condensation in Thermo-con, which will result in breakage of electrical apparatuses in Thermo-con. Use radiating water of a temperature more than dew point of atmosphere.(See page 29.)

4) Constant Temperature Circulating Water

(1) Use tap water which can avoid damaging materials contacting to liquid (Refer to the page 14.). (2) If DI water is used, bacteria or algae may grow for a short period. Change all amount of water regularly

depending on the condition. (3) Please consult us if liquids other than water is used. Considering pumping capacity, use liquids with less

than 3×10－5 m2/s of viscosity and less than 1.1 of specific gravity. (4) The max. operating pressure used for constant temperature circulating water circuit is 0.1 MPa.

If the pressure more than this is used, water will be leaked from tank and piping in device. (5) Select piping length and size in order to flow rate is more than 2L/min. If flow less than 2L/min is applied,

temperature control become unfit and fail to control precisely, then equipment might be broken due to repetition of cooling/ heating.

３．Ｓｐｅｃｉａｌ Ｃａuｔｉｏｎｓ

Warning If instructions with this indication are not followed, electric shock or injuries by other accidents and damages to surrounding devices will occur.

４

(6) Magnet operating pump is used as circulation pump for constant temperature circulating water. Liquids containing metal powder like iron powder cannot be used.

(7) Be sure not to operate without putting constant temperature circulating water. Idling will damage pump. (8) Note that water may flow out depending on external piping by opening the tank lid after constant temperature circulating water is supplied. (9) When an external tank is used, water may flow out from the lid of the built-in tank depending on a place

where the external tank is installed. Since special Thermo-con with no built-in tank are available, uses one of these in such a case.

(10)When external tank is used at atmosphere pressure, make piping resistance on return side of constant temperature circulating liquid as small as possible. If piping resistance is large, there is possibility that piping is collapsed and tank is deformed and damaged because pressure in built-in tank of circulator becomes negative. As built-in tank of circulator is made of resin (PE), so, in case of negative pressure, tank may be collapsed. Be sure not to make negative pressure of -0.02MPa or more. Especially, as it is easier to make forbidden negative pressure value in case of large circulating flow rate, use thick and short piping for return side and make piping resistance small. Tightening flow rate of outlet is another effective way.

(11)If fluid like DI water which does not conduct electricity much is used as constant temp. water, static electricity is generated by the friction of the fluid movement. This may damage electric parts of thermo-con, or cause malfunctioning by discharging to the external temp. sensor. To prevent static electricity from discharging to the external temp. sensor, temp. sensor wire, communication line, and the signal wire of warning line, anti-static solution of the constant temp. fluid is necessary.

(12)GALDEN(Solvay Solexis), fluorinert(3M), ethylene glycol are not applicable. (13)Avoid operation with cavitation and bubble involved because of low water level of tank to keep life of

pump longer. 5) Alarm Contact Output

Upper / lower temperature limit alarm and output cutoff alarm are relay output. Since enclosure is not attached, use at 24 VDC and the range of 1mA-100mA. The length of connecting cable shall be limited to around 15m due to noise.

6) Maintenance (1) Corrective action when abnormality occurs

When abnormal sound, smoke or smell occurs, immediately cut power supply, stop circulating water and radiating water and use of product. After this, ask selling agent or SMC to repair.

(2) Periodical check Confirm if product is operated with broken or not periodically by person who has sufficient knowledge and experience of facility.

(3) Prohibition of disconnection and modification Avoid to remove panel to disconnect and modify product for preventing electrical shock, burning and injury. If these action is required absolutely, cut power supply at field or remove power supply connector.

(4) Stop of operation for a long If operation of Thermo-con is stopped for a long, in order to prevent unintended trouble, disconnect supply power and drain fluid from both constant temperature water and radiating water loops.

(5) Disposal Discarded Thermo-cons must be disposed of through an industrial waste dealer.

7) Transportation and Movement (1) Avoid strong vibration and impact

As Thermo-con is precise, do not give any strong vibration and impact at transportation. (2) Caution for movement

Thermo-con has much weight. When it is brought up and down, care not to cause damage due to drop.

５

(Note 1)Conditions that radiating water temperature is at 20℃, radiating water flow rate is at 5 L/min, setting temperature is at 20℃ and ambient temperature is at 20℃. (Note 2)As for serial communication, RS-485 is the standard and RS-232C is option. (Note 3)External sensor should be prepared by customers. (Note 4)As for dimension, while lid of tank and secure hand are included, drop resistance cover and connector etc. are not included.

４．Ｓｐｅｃｉｆｉｃａｔｉｏｎｓ

ＨＥＣ１０５Ｗ ＨＥＣ２０５Ｗ Model －１ －２ －４ －１ －２ －４

Temp. Setting Range 10.0 － 60.0℃ (unable to set at out of range) Temp.Measuring Range

-9.9 － 80.0℃ (unable to indicate temperature at out of range)

Setting Accuracy Temperature Drift Control Accuracy (Stability)

Within ±0.2℃ (including sensor accuracy) Within ±0.2℃ (At 15 － 35℃ of ambient temperature) Within ±0.03℃ (When IN and OUT of constant temperature circulating water are connected directly)

Cooling Capacity (Note 1)

116W 233W

Constant Temperature Circulating Water

Pump capacity: Pump head is 0.06/0.09 MPa (50/60Hz) at 5 L/min Tank capacity: Approx. 1.2L (Sealed tank) Max. operating Pressure: 0.1 MPa

Radiating Water Flow rate: 3 － 5 L/min Temperature: 2 － 40℃ (Without dew formation) Max. Operating Pressure: 1MPa

Piping Fitting Constant Temperature Circulating Water IN / OUT : Rc3/8 Radiating Water IN / OUT : Rc3/8 Constant Temperature Circulating Water Drain : Rc1/4

Power Supply (±10%V)

AC100V 1φ, 5 A,

50 / 60 Hz

AC200V 1φ,3 A,

50 / 60 Hz

AC220V 1φ, 3 A,

50 / 60 Hz

AC100V 1φ, 9 A,

50 / 60 Hz

AC200V 1φ, 5 A,

50 / 60 Hz

AC220V 1φ, 5 A,

50 / 60 HzOverCurrent Protection Fuse 8A Fuse 6A Fuse 15A Fuse 10A Main Functions (Note2)

auto-tuning, offset, learning control, external tuning control, sensor fine control, setting value memory, upper / lower temperature limit alarm, output cutoff alarm, serial communication.

Input Operation Display Alarm Output

Membrane key seat Liquid crystal display panel (with back light) Output cutoff alarm：relay output(contact C, 24VDC, 1mA－100mA) Upper/Lower temperature limit alarm: relay output(contact C,24VDC, 1mA－100mA)

Temperature Sensor (Note 3)

Platinum resistance bulb, Pt100Ω, 3wire type, class A, JIS C 1604 (Both internal and external sensor)

Ambient Temp., Humidity Quality of Air

10－35℃, 35－85%RH (without dew formation) Good atmosphere where corrosive gas, solvent of thinner, inflammable gas are not contained.

Instant Power Failure Insulation Resistance

50ms or less 50MΩ or more

Noise Resistance Static Electricity Discharge Resistance

1500V for both normal and common modes (1μs range impulse noise) Discharge voltage to housing is 10kV or less.

Dimension (Note 4) Housing Color Weight

Width １８６×Height ２６２ ×Depth ３６８mm DIC５４６ １/２ (Ivory) About １４ kg

Option With flow switch : Function that output cutoff alarm works when flow rate of constant temperature circulating water decreases( 1±0.5 L /min. or less)

６

1) Auto-tuning Function This is a function to set value necessary for control such as PID (proportional band, integral time, derivative time and ratio of cooling / heating gain) automatically.

2) Offset Function

This is a function to control temperature sliding it by offset value from set point temperature. The range of offset -9.99 － 9.99℃. When constant temperature circulating water is carried to an object whose temperature is controlled, certain deviation is made between temperature before the object and setting temperature of Thermo-con due to influence by ambient temperature of piping inside. At that case, if deviation is input as offset value, temperature of constant temperature circulating water just before the object can conform with setting value.

3) Learning Control Function

This is a function to match temperature to setting value by setting designated temperature sensor (external sensor) at constant temperature circulating water before the object, sampling temperature with Thermo-con and sliding temperature by offset value at regular intervals automatically. Providing that temperature of constant temperature circulating water controlled at 30℃ drop to 0.2℃ and becomes 29.8℃ while it is carried to the object. Then if learning control is turned on, Thermo-con will increase outlet set temperature by 0.2℃ like broken line and it will be 30.2℃. As a result, temperature of constant temperature circulating water just before the object is revised to be 30℃ automatically.

4) External Tuning Control Function

This is a function to conform temperature of constant temperature circulating water with external temperature (ambient temperature). Set temperature sensor where tuning is required, sample the temperature by Thermo-con and automatically match the constant temperature circulating water to that of tuning position.

5) Sensor Fine Control Function

This is a function to finely control measurement temperature of control sensor within the range of -9.99－9.99℃ apart from offset function. Control sensor can be corrected by inputting difference (calibration value) between temperature of standard and that of control sensor.

6) Setting Value Memory Function (Function that backs up with EEROM)

This is function that all setting value manually input is backed up with nonvolatile memory, EEROM. Even if power is turned off, the setting condition just before turning off power is reproduced at re-start. Resetting is not necessary. Each set point is written on to EEROM, however the number of over write possible is no more than 100.000 times. Please pay attention to the number of overwrites especially when using communication function.

５．Ｆｕｎｃｔｉｏｎ

Target value of internal sensor

Set value

(Target value of external sensor)（30.0℃）

Internal sensor

Learning control "ON"

Learning control "OFF"

External sensor

Temperature Deviation（0.2℃）

temperature controlsObject that

Thermo-con

７

7) Serial Communication Function This communication function conforms to the communication standards of RS-485 and RS-232C. Communication is possible with the cable length of 500m for RS-485 and 15m for RS 232C.Communication allows one host computer to set and monitor operating conditions of up to 16 Thermo-cons. Contents of communication is as follows.

①Setting and reading of set point temperature ②Reading control sensor value ③Reading alarming status ④Setting offset and reading offset setting value

In case of using communication, please request us “Communication Specifications” 8) Upper / Lower Temperature Limit Alarm Function

This is a function that alarm operates when control temperature is out of allowable upper range and allowable lower range. When alarm operates, WRN is indicated on liquid crystal display, alarm is output to Alarm output connector by relay contact. If control temperature returns to within allowable upper / lower range, this alarm is automatically canceled. Allowable upper / lower range of temperature can be set at the range of 0－10℃ independently. Please note that upper/ lower temperature limit alarm do not operate until target temperature is reached once after power is supplied.

9) Output Cutoff Alarm Function

This is a self-check function to cutoff and stop output to thermo-module (operation is continued in case of ERR 15 and ERR 18), and go off alarm when serious failure occurs. When alarm operates, ERR and alarm No. are indicated on liquid crystal display and alarm is output to alarm output connector by relay contact. This alarm cannot be canceled without turning off power once and turning it on again.

ＨＥＣ １０５Ｗ－１ Ａ ＊ ・Option Nil ：None F ：With flow switch

・Communication Specification A ： RS－485 (Standard) B ： RS－232C(Semi-standard) ・Power Supply Specification １ ： AC100Ｖ ２ ： AC200Ｖ ４ ： AC220Ｖ ・Product Type Ｗ ： Water-cooled unit ・Cooling Capacity １ ： 116Ｗ ２ ： 233Ｗ

６．Ｈｏｗ ｔｏ Ｏｒｄｅｒ

８

７．Ｏｕｔｓｉｄｅ Ｄｉｍｅｎｓｉｏｎｓ

８．Ｅｌｅｃｔｒｉｃ Ｃｉｒｃｕｉｔ Ｄｉａｇｒａｍ

L.C.D.Unit

CPUboard Sensor

board

3

3

6

3

2

2

2

2

2

SW powersupplyCPU board

SW powersupply

Linefilter

R

Pump

FG

Fuse

Power supplyswitch

3AC100VAC200VAC220V

RS-485(RS232C)RS-485

AlarmoutputExternalsensor

９

Value on performance charts is not guaranteed value but representative value. Value used for consideration should not be the very limit for the safety. 1)Cooling Performance (HEC105W)

2)Heating Performance (HEC105W)

Heating energy W Heating energy W

９．Ｐｅｒｆｏｒｍａｎｃｅ Ｃｈａｒｔ

１０

3) Cooling Performance (HEC205W) 4) Heating Performance (HEC205W)

１１

5) Pumping Performance Pressure shown by the vertical line is differential pressure between IN and OUT of constant temperature circulating water for Thermo-con.

6)Pressure Loss of Radiating Water

0.00

0.02

0.04

0.06

0.08

0.10

0.12

0 2 4 6 8 10 12

Flow rate　L/min

Pre

ssure

　M

Pa

60Hz

50Hz

Fluid: Water

0.00

0.02

0.04

0.06

0.08

0.10

0.12

0 2 4 6 8 10 12

Flow rate L/min

Pre

ssure

Loss

M

Pa

HEC205W

HEC105W

１２

10-1.Main Parts

①Power supply switch : Turn ON / OFF power supply of device. ② Display / operation panel: Display various indication and input setting value. ③ Power supply connector: Power supply connector with single-phase current, which is connected to attached

power supply cord. ④ Fuse: Fuse for power supply. ⑤ Alarm output connector: Connector for output cutoff alarm and upper / lower temperature limit alarm. ⑥ Communication connector: Communication connector for RS-485 or RS-232C ⑦ External sensor connector: Connector for connecting external sensor. ⑧ IN for radiating water: Inlet port for radiating water whose port size is Rc3/8. ⑨ OUT for radiating water: Outlet port for radiating water whose port size is the same as inlet port. ⑩ IN for constant temperature circulating water: Inlet (return) port for constant temperature circulating

water whose port size is Rc3/8. ⑪ OUT for constant temperature circulating water: Outlet port for constant temperature circulating water

whose port size is the same as inlet port. ⑫ Water level gauge: Confirm level of water tank. ⑬ Tank: Water tank whose max. capacity is Approx. 1.2L ⑭ Tank lid : Screw type tank lid. This lid is removed for supplying water and sealed by O-ring. ⑮ Drain port: Outlet port for water tank. Port size is Rc1/4. ⑯ Drip proof partition: Drip proof partition for electrical system, and it is secured by screws (2 positions). ⑰ Flow switch: This is a switch to detect if constant temperature circulating water is flowed into inlet (return)

or not. In case of less than 1±0.5 L/min, alarm leveling down constant temperature circulating water flow works.(E16) Flow switch is an option.

１０．Ｎａｍｅ ａｎｄ Ｆｕｎｃｔｉｏｎ ｏｆ Ｅａｃｈ Ｐａｒｔ

１３

10-2.Details of Display / Operation Panel

① AT key : AT Implement and cancel auto tuning. ② SEL key : SEL Select various modes. ③ RET key : RET Return to temperature indication from each mode. ④ ▼ key (Down key) : ▼ Decrease setting data. ⑤ ▲ key (Up key) : ▲ Increase setting data. ⑥ Data display LCD : Indicate data such as temperature of three digits with sign. ⑦ Mode display LCD : Display mode in 1 digit. ⑧ PV / SV / MODE indicator : Identify which data is displayed measuring temperature PV, set point

temperature SV or various modes MODE. ⑨ AT indicator : A.T Light during auto tuning. ⑩ WARN indicator : WRN Light when upper / lower temperature limit alarm operates. ⑪ ERR indicator : ERR Light when output cutoff alarm operates.

RETSELAT

PVSVMODE

A.T WRN ERR

SMC

-88.

THERMO-CON

8. 8

(1) (2) (3)

(4)

(5)

(6)(11)(10)(9)

(7)

(8)

１４

11-1.Cautions for Installation

Please install Thermo-con into the following places. (1) Places where water, oil and various chemicals are not splashed and where particles are

hardly found. (2) Places where corrosive gas and inflammable gas are not contained.

(This product is not explosion proof construction) (3) Places where ambient temperature is 10－35℃ and humidity is 35－85% without dew

formation. (4) Places where are not affected by noise generation (electric discharging device, large sized

relay, thyristor etc.) (5) Places where every cable of Thermo-con is not approached to power lines of other devices. (6) Places where are not strong electromagnetic field nor strong magnetic field. (7) Places where are good power supply ground.

11-2.Preparation for Radiating Water

(1) Condition of Radiating Water ① Use clean water like tap water. If radiating water is circulated, water quality control to avoid

damaging materials, SUS304, which is used for radiating water line, should be needed. ② Water whose temperature range is 2－40℃ can be used. Take care that cooling and heating

performance will be changed depending on temperature. Radiating water of a low temperature makes dew condensation at heat exchanger, which may result in breakage of electrical apparatuses in Thermo-con. Use radiating water of a temperature more than dew point of atmosphere by referring to page 29.

③ The max. operating pressure is 1MPa . Please use low pressure as much as possible considering water hammer.

④ Flow rate should be 3－5 L/min. Even if flow rate is more than that, performance will be hardly changed. If flow rate is less than 3 L/min, cooling and heating performance will be remarkably deteriorated.

(2) Connect fittings to “IN” and “OUT” ports (Rc3/8) of Thermo-con, which are indicated “COOLING

WATER” and pipe tubes to inlet and outlet of radiating water.

(3) Ensure to avoid cutting off radiating water and operating with very little water flow. In case of such operation, while Thermo-con itself will stop by thermostat, since temperature of radiating water reaches about 90℃, tube will be soften and exploded. If thermostat operates (E14 occurs), flow correct rate of radiating water after cooling naturally.

11-3.Preparation of Constant Temperature Circulating Water

(1) Conditions of Constant Temperature Circulating Water ① Use clean water like tap water which does not damage the following materials. 【Materials for sections contacting to constant temperature circulating water】

SUS304, ethylene propylene rubber, polypropylene, polyethylene, Filler contained fluorocarbon resin , ceramics

② If DI water is used, bacteria or algae may grow for a short period. So please change all amount of water regularly depending on operating conditions. ③ Since magnet operating pump is used, liquid with high viscosity (3×10－5 m2/s or more) or

one containing iron powder can not be used.

１１．Ｐｒｅｐａｒａｔｉｏｎ ａｎｄ Ｏｐeｒａｔｉｏｎ

Warning

Warning

１５

(2) Connect fittings to “IN” and “OUT” ports (Rc3/8) of Thermo-con, which are indicated “CIRCULATING WATER”, and pipe tubing at inlet and outlet of constant temperature circulating water.

(3) Select piping length and size in order to circulating flow is more than 2L/min. If flow less than

2L/min is applied, temperature control become unfit and fail to control precisely, then equipment might be broken due to repetition of cooling/ heating.

(4) Connect fittings to ports (Rc1/4) of Thermo-con, which are indicated “DRAIN” and pipe to drain

port nearby. Provide valve in between piping, use thick and short tubing as much as possible.

(5) Supply constant temperature circulating water by opening tank lid the top of Thermo-con. The capacity of tank is about 1.2 L. Please take care that flow rate or heat transmission capacity will deteriorate because air is contained into constant temperature circulating water if water level is low. Close tank lid after supplying water.

(6) Be sure to avoid operation without supplying constant temperature circulating water.

Operation without water will damage circulating pump. 11-4.Connection of Each Connector and Power Supply Plug

(1) Connect each connector and power supply plug after checking if power switch of Thermo-con is turned OFF.

(2) For learning control and external tuning control, connect sensor to “EXTERNAL SENSOR”. Sensor should be measuring temperature Pt100Ωof the new JIS standards (JIS C 1604) and 3 wire type, and be sure to attach shielding wire.

(3) For communication, connect Thermo-con to host with twist pair shielding wire. (4) For alarm output, connect twist pair cable to “ALARM” on Thermo-con. It is relay C contact

(24VDC, 1－100mA). (5) Connect power supply cord to Thermo-con. Connector is screwed type. Ensure to tighten to the

end. (6) Connect power supply cord to single phase current power supply and ground. Ensure not to

connect grounding wire to power supply. Since frame ground of Thermo-con is also used as power supply ground, it is necessary to keep reliable power supply ground.(The ground class 3)

(7) Install electric leakage breaker whose electric capacity is suitable for power supply equipment. 11-5.Starting Operation

(1) Run radiating water. (2) Turn on power supply of Thermo-con. (3) Display on Thermo-con shows ROM version for about 1 sec. After turning on power supply, and

then the present temperature of constant temperature circulating water is indicated and operation starts. If alarm goes off after turning on power supply, see contents of errors, turn off power supply to investigate causes and take countermeasures.

(4) Errors which might occur at starting operation are as follows.

【E16】: It occurs when constant temperature circulating water is not full in piping. Open tank lid and supply constant temperature circulating water.(When optional flow switch is installed.)

【E18】: It occurs when external sensor is not connected. Connect external sensor or change normal control operation from learning control or external tuning control. For changing procedure, see section 12-2 on page 17.

Warning

Warning

１６

11-6.Setting Value

When Thermo-con starts control operation normally, set value such as setting temperature. (1) Perform fine control of sensor. Refer to the 12-5 and input fine control value. (2) Set each value such as setting temperature and upper / lower temperature range. Refer to the

chapter 12 and set required value. All preparation is completed by this setting and operation with the set conditions has been started when mode is returned to normal mode.

(3) Once value is set, value is not erased even if power is turned off. If all value must be reset, turn on power supply of Thermo-con pushing “RET” key and “SEL” key together. EEROM is forcefully erased and default value of ROM is set. (See page 24)

11-7.Cautions for Operation Control

(1) If the same water is used for a long time, fur or algae may be formed. Especially, if DI water is used it is formed in a short period. Replace all water with new one regularly to avoid it. Water should be discharged from “DRAIN” port turning off power supply. Avoid discharging water turning on power supply because pump may absorb air due to dropping down of water level.

(2) Flow more than 2 L /min of constant temperature circulating water for Thermo-con. (3) After turning on power supply, take warming-up time for at least 30 minutes until operation

becomes smooth. (4) If error occurs during operation refer to the chapter 13, Error Information and take measures. (5) Radiating water of a low temperature makes dew condensation in Thermo-con, which will

result in breakage of electrical apparatuses in Thermo-con. Use radiating water of a temperature more than dew point of atmosphere.

(6) When unscrewing the tank lid of Thermo-con, water may flow out depending on its external piping. When unscrewing the tank lid after constant temperature circulating water is supplied, ensure that there is no external tank above the level of Thermo-con and no back-flow of constant temperature circulating water to Thermo-con.

Indication and Setting when Output Cutoff Alarm Operates

① In case of front mode, indicator ERR and error No. are shown. ② If output cutoff alarm operates when back mode or the second back mode is indicated, ERR is shown

but mode data is continued to be indicated without showing error No. and setting can be done. Output cutoff and alarm contact output are implemented normally.

③ Error No. is indicated if back mode or the second back mode returns to front mode. ④ Even in alarming condition, by pushing SEL key, required function can be selected and set in every

mode (Excepting E00～E03). If RET key is pushed, indication will return to ERR with error No.

１７

12-1. How to Set Data

(1) Controller has 3 modes, Front mode, Back mode and Second back mode. Function of each mode is as follows. Front mode : Mode normally used. Back mode : Mode used for maintenance Second back mode : Mode used to select communication type. (2) How to Select Mode Front mode : This mode is set when power supply is turned on. Back mode : This mode is set by pushing ▼ key and SEL key together. Second back mode : This mode is set by pushing ▲ key and SEL key together. (3) How to Select Function and Data Setting in Each Mode ① Required function can be selected by pushing SEL key in each mode. ② Move up and down function data with ▲ and ▼ keys.

Increase data by the count of 1 by pushing ▲ key. Decreases data by the count of 1 by pushing ▼ key.

When ▲ and ▼ keys are kept pushing, data move up and down automatically. ③ The data is set in 2 seconds after releasing ▲ and ▼ keys.

12-2. Selecting Front Mode

When power supply is turned on, front mode is set. By pushing SEL key one by one, front mode changes as follows. Push RET key once in case of returning to measuring temperature indication.

Mode Indication

Indicating measuring temperature：Indicator lights on PV and indicates measuring temperature of internal or external sensor.

Setting set point temperature：Indicator lights on SV and sets set point temperature for

control. In the following function, Indicator lights on MODE. Selecting control operation：Select normal control operation, auto tuning operation, learning

control operation, external tuning control operation Setting external sensor sampling cycle：Set sampling cycle at learning control or external

tuning control. If learning control or external tuning control is not set, this mode is skipped.

Setting offset value：Control temperature of PV sliding by offset value. Setting allowable upper temperature range：Set allowable upper temperature range for set

point temperature . Setting allowable lower temperature range：Set allowable lower temperature range for set

point temperature. Setting high temperature cutoff temperature of internal sensor：

Set high temperature cutoff temperature of internal sensor. (by 0.1℃) Setting low temperature cutoff temperature of internal sensor：

Set low temperature cutoff temperature of internal sensor.(by 0.1℃)

１２．Ｈｏｗ ｔｏ Ｏｐｅｒａｔｅ Controller

① 1.or2. ↓ ② Nil

↓ ③ Ｃ ↓ ④ e ↓ ⑤ o ↓ ⑥ H ↓ ⑦ L ↓ ⑧ ｎ ↓ ⑨ ｕ ↓

１８

12-3. Details of Front Mode

① Indicating measuring temperature : Mode indication１. or ２. ,Indicator lights on PV. [Indicating Range] -9.9－80.0

[Contents of Indication] Measuring temperature of internal sensor and external sensor. [Function] Measuring temperature is indicated.

Ｍode indication“１.“means internal sensor and “２.“means external sensor. Push ▲ or ▼ key for change. For normal control, internal sensor “１.“is indicated, and when learning control and external tuning control are selected, external sensor “２.“ is indicated.

② Setting set point temperature : Ｍode indication is blank, Indicator lights on SV.

[Setting Range] 10.0℃－60.0℃ [Contents of Indication] Set point temperature [Function] Controlled set point temperature is set.

③ Selecting control operation : Mode indication is Ｃ , Indicator lights on MODE. [Setting Range] 1 － 4 [Contents of Indication] ･ Control Operation No. ･ “C “ indicates that it is setting mode of control operation. [Function] Select control operation.

1: Normal control operation 2: Auto tuning operation 3: Learning control operation 4: External tuning control operation

Indication when key is not input for 1 minute

If key is not input for 1 minute, indication will automatically return to measuring temperature indication even if any setting conditions of front mode, back mode and second back mode.

Implementation of Auto Tuning

① Keep initial value of PID value used for control (See page 22) and it is not needs to change it. If control temperature is unsettled regularly, implement auto tuning. ② Set “2” at control operation selecting mode C. ③ When AT key is pushed, indicator A.T lights on and auto tuning starts. ④ If it is needs to cancel auto tuning, push AT key. Indicator A.T is turned off. ⑤ If indicator A.T is turned off, control operation returns to normal soon. During auto tuning, at first

temperature is increased by 3℃ higher than set point temperature and then returned to set point temperature.

⑥ If auto tuning is not finished for 20 minutes, alarm ERR19 is gone off and output is cut off(stop control). Turn off power supply once and turn it on again to start operation. ⑦ If auto tuning is not worked smoothly, adjust PID value(proportional band, ARW value, integral time

and derivative time) of back mode by hand. During Auto-tuning Auto-tuning Error

１９

④ Setting external sampling cycle : Mode indication is e , Indicator lights on MODE. [Setting range] 10－999 sec. [Contents of Indication] ･External sensor sampling cycle ･”e “ indicates that it is external sensor sampling cycle setting mode.

[Function] Set sampling cycle of learning control or external tuning control.

⑤ Setting offset value : Mode indication is ｏ , Indicator lights on MODE.

[Setting Range] -9.99－9.99℃ [Contents of Indication] ･Offset value ･”ｏ “ indicates that it is offset value setting mode. ･Decimal mode is not indicated. The example in the left figure means -0.57℃.

[Function] ･Set offset function which controls set point temperature shifting it from

actual value by adding / reducing desired value to measured value of internal sensor. If -1.0 is set, actual control temperature will be reduced 1.0℃.

⑥Setting allowable upper temperature range : Mode indication is H , Indicator lights on MODE.

[Setting Range] 0.0－10.0℃. [Contents of Indication] ･Allowable upper temperature range ･” H “ indicates that it is allowable upper temperature range setting mode.

[Function]Set allowable upper temperature range for upper / lower temperature limit alarm. Input allowable upper range from set point temperature.

⑦ Setting allowable lower temperature range : Mode indication is L , Indicator lights on MODE.

[Setting Range] 0.0－10.0℃. [Contents of Indication] ･Allowable lower temperature range ･” L “ indicates that it is allowable lower temperature range setting mode.

[Function]Set allowable lower temperature range for upper / lower temperature limit alarm. Input allowable lower range from set point temperature.

Condition when upper / lower temperature limit alarm works

When upper / lower temperature limit alarm works, indicator WRN lights on. Since control continues, indicator WRN turns off when temperature returns to within allowable upper / lower temperature range.

２０

⑧ Setting high temperature cutoff temperature of internal sensor :Mode indication is ｎ . Indicator lights on MODE.

[Setting Range] 11.0－70.0℃. [Contents of Indication] ･High temperature cutoff temperature of internal sensor. ･” ｎ “ indicates that it is a mode to set high temperature cutoff temperature of internal sensor.

[Function] Set high temperature cutoff temperature of internal sensor (by 0.1℃.)

⑨Setting low temperature cutoff temperature of internal sensor :Mode indication is ｕ . Indicator lights on MODE.

[Setting Range] 0.0－59.0℃. [Contents of Indication] ･Low temperature cutoff temperature of internal sensor. ･”ｕ “ indicates that it is a mode to set low temperature cutoff temperature of internal sensor.

[Function] Set low temperature cutoff temperature of internal sensor (by 0.1℃.)

12-4. Selecting Back Mode

This mode (hereinafter back mode) is used to set data which is not usually used, and mainly applied to maintenance. Mode changes to back mode by pushing ▼ and SEL keys together. Pushing RET key 1 time, indication changes to fine control of internal sensor and pushing RET key again, returns to front mode. If mode indication is at fine control of internal sensor before returning to front mode, push RET key only 1 time. By pushing SEL key one by one, back mode changes as follows. Indicator lights on MODE to indicate following functions. Mode Indication

Fine control of internal sensor：Internal sensor value is finely controlled. Fine control of external sensor：External sensor value is finely controlled. Setting PB range：Proportional band range is set. Setting ARW range：Set effective integral control range (Anti-reset windup) Setting I constant：Set integral time. Setting D constant：Set derivative time. Setting heating / cooling ratio：Output ratio of cooling to heating is set to correct difference of

gain between heating and cooling. Setting overload judging temperature range：Set overload judging temperature range. Setting overload judging time：Set overload judging time. Output indication：Indicate output ratio of controller.

① 1. ↓ ② 2. ↓ ③ P ↓ ④ A ↓ ⑤ I ↓ ⑥ d ↓ ⑦ E ↓ ⑧ r ↓ ⑨ q ↓ ⑩ G ↓

２１

12.5 Details of Back Mode

① Fine control of internal sensor value : Mode indication is 1. ､Indicator lights on MODE. [Setting Range] -9.99－9.99℃. [Contents of Indication] ･Internal sensor fine control value. ･” 1. “ indicates that it is internal sensor fine control value. ･Decimal point is not indicated. The left example indicates -0.32℃.

[Function]Set correction value when internal sensor value is revised. When -1.0℃ is set, temperature value of sensor increases 1.0℃ and actual control temperature decreases 1.0℃.

② Fine control of external sensor value : Mode indication is 2. , Indicator lights on MODE.

[Setting Range] -9.99－9.99℃. [Contents of Indication] ･External sensor fine control value. ･” 2. “ indicates that it is external sensor fine control value setting mode. ･Decimal point is not indicated. The left example indicates -3.82℃.

[Function] Set correction value when external sensor value is revised. When -1.0 is set, temperature value of sensor increases 1.0℃.

③ Setting PB range : Mode indications is P , Indicator lights on MODE.

[Setting] 0.3－9.9℃ [Contents of Indication] ･PB range (Proportional band) ･” P “ indicates that it is PB range setting mode.

[Function] Set PB range used for PID control.

④ Setting ARW range : Mode indication is A, Indicator lights on MODE. [Setting Range] 0.3－9.9℃ [Contents of Indication] ･ARW range (Anti-reset windup) ･” A “ indicates that it is ARW range setting mode.

[Function] Specify operating range of integral operation.

⑤Setting I constant : Mode indication is I, Indicator lights on MODE. [Setting Range] 0－999 sec. [Contents of Indication] ･I constant (Integral time) ･” I “ indicates that it is I constant setting mode.

[Function]Set integral time (sec.) used for PID control. Integration is not performed at 0.

⑥ Setting D constant : Mode indication is d. Indicator lights on MODE.

[Setting Range] 0－99.9 sec. [Contents of Indication] ･D constant (derivative time) ･” d “ indicates that it is D constant setting mode.

[Function]Derivative time used for PID control is set. Derivative is not performed at 0 (PI control).

２２

⑦ Setting of heating / cooling ratio :Mode indication is E , .Indicator lights on MODE. [Setting Range] 10－999 % [Contents of indication] ･Ratio of heating / cooling gain. ･” E “ indicates that it is setting mode for ratio of heating / cooling gain.

[Function]Output ratio of cooling for heating is set to correct difference of gain between heating and cooling.

⑧ Setting overload judging : Mode indication is r , Indicator lights on MODE.

[Setting Range] 0.1－9.9℃ [Contents of Indication] ･Overload judging temperature range. ･” r “ indicates that it is overload judging temperature range setting mode.

[Function] Temperature range to judge overload (E15) is set.

⑨ Overload judging time : Mode indication is q , Indicator lights on MODE. [Setting Range] 0－99 min. [Contents of Indication] ･Overload judging time. ･” q “ indicates that it is overload judging time.

[Function] Overload judging (E15) time is set. When setting value is 0, the judgment of E15 isn't done. (E15 doesn't occur)

⑩Output indication : Mode indication is G , Indicator lights on MODE.

[Range] -100－100% [Contents of Indication]

･Output ratio. ･” G “ indicates that it is output indication mode.

[Function] Output ratio of controller is indicated.

PID Value

PID value is as follows. Normally adjustment is not required. Although adjustment is required if control temperature becomes unstable periodically using auto tuning is recommended.

―HEC105W―

PB range=0.4, ARW range=1.0, I constant=100, D constant=0, Ratio of heating / cooling gain=200

―HEC205W―

PB range=0.6, ARW range=1.0, I constant=150, D constant=0, Ratio of heating / cooling gain=200

２３

12-6. Selecting Second Back Mode

This mode (hereinafter second back mode) is used to select communication method. Second back mode is entered by pushing ▲ key and SEL key together. Pushing RET key one time, unit number setting is indicated and pushing again, it returns to front mode. If unit number setting is displayed before returning, push RET key only 1 time. By pushing SEL key one by one, second back mode changes as follows. Indicator lights on MODE in the case of function started below. Mode Indication

Unit number setting : Unit number for communication is set. Baud rate setting : Communication Baud rate is set. Parity bit setting : Communication parity bit is set. Data length setting : Communication data length is set. Stop bit setting : Communication stop bit is set.

12-7. Details of Second Back Mode

① Unit number setting : Mode indication is ｃ , Indicator lights on MODE. [Setting range] 0－F (hexadecimal) [Contents of Indication] ･Unit number of communication. ･” ｃ“ indicates that it is communication unit setting mode.

[Function] When multiple Thermo-cons are used, unit number of each one is specified by hexadecimal.

② Baud rate setting : Mode indication is b , Indicator lights on MODE.

[Setting range] 600,1200,2400,4800,9500 b/s [Contents of Indicator]1/10 of setting baud rate. ･“ b “ indicates that it is Baud rate setting mode.

[Function]Setting value is scrolled by ▲ and ▼ keys.

60 120 240 480 960

③Parity bit setting : Mode indication is r , Indicator lights on MODE.

[Setting range] 0,1,2 [Contents of Indication] ･Parity bit of communication. ･” r “ indicates that it is parity bit setting mode.

[Function]Parity bit is set. 0 : Without parity 1 : Odd number 2 : Even number

① ｃ ↓ ② b

↓ ③ r ↓ ④ L ↓ ⑤ ┘ ↓

２４

④ Data length setting : Mode indication is L , Indicator lights on MODE. [Setting range] 0,1 [Contents of Indication] ･Data length of communication. ･” L “ indicates that it is data length setting mode.

[Function]Data length is set. 0 : Data 8 bits

1 : Data 7 bits

⑤ Stop bit setting : Mode indication is ┘, Indicator lights on MODE. [Setting range] 0,1 [Contents of Indication] ･Stop bit of communication. ･” ┘“ indicates that it is stop bit setting mode.

[Function]Stop bit is set. 0 : 1 bit of stop bit

1 : 2 bits of stop bit

12-8. Default Value of Each Mode

Contents Setting Value Front mode Set point temperature

Control operation External sensor sampling cycle Offset value Allowable upper temperature range Allowable lower temperature range High temperature cutoff temperature of internal sensor Low temperature cutoff temperature of internal sensor

25.0 1

180 0

1.5 1.5 70 0

Back mode Fine control of internal sensor Fine control of external sensor PB range ARW range I constant D constant Heating/Cooling ratio Overload judging temperature range Overload judging time

0 0

0.6 1.0 150 0

200 0.2 10

Second back mode Unit number Baud rate Parity bit Data length Stop bit

0 120 0 0 0

２５

1) Alarm

Note 1) Internal sensor value shall be applied to normal control, and external sensor value shall be applied to

learning control and external tuning control. Note 2) Internal sensor value for alarm here is the value that fine control value is decreased from internal

sensor value and offset value is not included. Internal sensor value for alarm = Internal sensor value － Internal sensor fine control value

１３．Ｃｏｎｔｅｎｔｓ ｏｆ Ａｌａｒｍ

Contents of Alarm

Output cutoff alarm

Upper/ Lower temperature limit alarm

Blinking LCD

Condition after alarming

ReturningMethod

Upper temperature limit alarm It operates when sensor value (Note1) exceeds value of temperature setting value plus allowable upper temperature range. (Alarm dose not operate until temperature reaches setting value after turning on power.)

× ○ WRN (Lighting)

Normal operation

At any time

Lower temperature limit alarm It operates when sensor value (Note 1) is less than value of temperature setting value minus allowable lower temperature range.(Alarm does not operate until temperature reaches setting value after turning on power)

× ○ WRN (Lighting)

Normal operation

At any time

E00 Runaway of CPU Runaway of CPU due to noise.

○ × ERR Device stops Communic-ation stops

Turn on power again.

E01 ROM check failure ROM check failure when power is turned on.

○ × ERR Device stops Communic- ation stops

Change EEROM.

E02 RAM check failure RAM check failure when power is turned on.

○ × ERR Device stops Communic-ation stops

Change substrate.

E03 Back-up data error EEROM data is damaged when power is turned on again.

○ × ERR Device stops Communic-ation stops

Readjust data of EEROM.

E10 DC power voltage rises.(power failure)Thermo-module cuts off.

○ × ERR Device stops

Turn on power again.

E11 DC power voltage drops(power failure)Thermo-module shorts.

○ × ERR Device stops

Turn on power again.

E12 Internal sensor value is extremely high.It operates when internal sensor value (Note2) exceeds internal sensor high temperature cutoff temperature.

○ × ERR Device stops

Turn on power again.

E13 Internal sensor value is extremely low It operates when internal sensor value (Note 2) is less than internal sensor low temperature cutoff temperature

○ × ERR Device stops

Turn on power again.

２６

2) Countermeasures of Alarm

Alarm Causes Repair 1)E00 Runaway of CPU ①High level noise entered the power

line, ground line, or sensor line. ① Move the Thermo-con to an

environment with little noise, turn ON the power supply. Alarm is confirmed, we will exchange and repair the Thermo-con

If there is no alarm, it causes from noise. Please consult with us.

2)E01 ROM check failure ① High level noise entered the power line, ground line, or sensor line.

① Move the Thermo-con to an environment with little noise, turn ON the power supply. Alarm is confirmed, we will exchange and repair the Thermo-con

If there is no alarm, it causes from noise. Please consult with us.

3)E02 RAM check failure ①High level noise entered the power line, ground line, or sensor line.

① Move the Thermo-con to an environment with little noise, turn ON the power supply. Alarm is confirmed, we will exchange and repair the Thermo-con

If there is no alarm, it causes from noise. Please consult with us.

7seg.LED (Blinking) Contents of Alarm

Output cutoff alarm

Upper/ Lower temperature limit alarm

Blinking LCD

Condition after alarming

ReturningMethod

E14 Thermostat alarm It operates when overheat detecting thermostat operates.

○ × ERR Device stops

Turn on power again.

E15 Output failure alarm It operates when temp. change is less than overload judging temp. range even if 100% output is performed continuously for overload judging time. When overload judging time value is 0, the judgment of E15 isn't done. (E15 doesn't occur)

○ × ERR Operation continues

Turn on power again.

E16 Decrease of flow rate of constant temperature circulating water(Option)It operates when flow rate is less than 1±0.5 L/min.

○ × ERR Device stops

Turn on power again.

E17 Cutoff and short circuit of internal sensor It operates when internal sensor cuts off or internal sensor value is at 0

○ × ERR

Device stops

Turn on power again.

E18 Cutoff and short circuit of external sensor It operates when external sensor cuts off or external sensor value is at 0. (It is detected only at learning control or external turning control.)

○ × ERR Operation continues at normal control

Turn on power again.

E19 AT failure It operates when auto tuning is not finished in 20 minutes after starting auto tuning

○ × ERR Device stops

Turn on power again.

２７

Alarm Causes Repair 4)E03 Back-up data error ①The EEROM data was destroyed

by high level noise. ① Move the Thermo-con to an

environment with little noise, turn ON the power supply. Alarm is confirmed, we will exchange and repair the Thermo-con

If there is no alarm, it causes from noise. Please consult with us.

5)E10 DC power voltage rises

① Thermo-module broken wire. ② DC power supply breakdown.

① ②Replace and check the failure. We will repair if Thermo-con is failed.

6)E11 DC power voltage drops

① DC output voltage of Thermo-con is decreased. ② Thermo-module shorts wire. ③ DC power supply breakdown.

① Check the power voltage 180 to 242V.② ③Replace and check the failure. We

will repair if Thermo-con is failed.

7) E12 Internal sensor value is extremely high.

① Internal sensor value exceeds internal sensor high temp. cutoff temperature.

② High level noise entered the sensor line.

① Check whether the abnormal temperature occur reality.

② Check the temperature unstable occurred by noise. Please consult us if it causes noise.

8)E13 Internal sensor value is extremely low

① Internal sensor value is less than internal sensor low temperature cutoff temperature. ② High level noise entered the

sensor line.

① Check whether the abnormal temperature occur reality. ② Check the temperature unstable

occurred by noise. Please consult us if it causes noise.

9)E14 Thermostat alarm ①Flow rate of radiating water is not proper over 3L/min.

①Confirm the flow rate of radiating water.

10)E15 Output failure alarm

① Cooling or heating ability over by loaded. ② Thermo-module broken wire. ③ High level noise entered the

sensor line.

① If PV temp. changes when the set temp. is raised and down, it causes overload. Increase radiating water. ② Replace and check the failure. We will

repair if Thermo-con is failed. ③ Please correspond the same as E00.

11) E16 Decrease of flow rate of constant temperature circulating water.

① Flow rate of constant temp. circulating water is 1±0.5 L/min or less.

② Thermo-con is failure.

① Examine and correspond the causes for constant temp. flow rate decreased.

② Replace and check the failure. We will repair if Thermo-con is failed.

12)E17 Cutoff and short circuit of internal sensor

① Internal sensor is short circuit or broken wire. ② High level noise entered the

sensor line.

① Replace and check the failure. We will repair if it is failed. ② Check the temperature unstable

occurred by noise. Please consult us if it causes noise.

13)E18 Cutoff and short circuit of external sensor

① External sensor is unconnected or bad.

② External sensor is short circuit or broken wire.

③ High level noise entered the sensor line.

① Connect normal sensor. ② Check whether the external sensor is

abnormal. ③ Check the temperature unstable

occurred by noise. Please consult us if it causes noise.

14)E19 AT failure ①Capacity of constant temp. water circuit is too large.

① Adjust PID value(proportional band, ARW value, integral time and derivative time) of back mode by hand.

15) Temperature rises and falls ±1 to 2 ℃ gradually about the set point temperature.

① Flow rate of constant temperature circulating water is less than 2L/min.

② P.I.D parameters are wrong value.③ Defective connection inside the

temperature sensor.

① In case of flow rate of the constant temp. circulating water decreased, adjust the P.I.D. values.

② Enter the regular P.A.I.D. parameters.Replace and check the failure. We will

repair if it is failed.

２８

Interfitting connectors other than the power supply connector should be prepared by customers. ①Power supply connector

100V：Nanaboshi NR-203-RM 200V,220V：Nanaboshi NJC-203-RM Interfitting Connector：NR-203-PF Interfitting Connector：NJC-203-PF Pin No. Contents of signal Pin No. Contents of signal

1 AC100V 1 AC200V/220V 2 AC100Ｖ 2 AC200V/220V 3 FG 3 FG

②External sensor connector AMP Japan,Ｌtd.：1-178802-5 Interfitting connector：1-178288-5＆1-175217-3 Pin No. Contents of signal

1 Resistance temperature sensor A terminal 2 Resistance temperature sensor B terminal 3 Resistance temperature sensor B terminal 4 FG for shield 5 Unused

③Alarm output connector AMP Japan,Ltd：178803-3 Interfitting connector：178289-3＆1-175217-3 Rated voltage（DC24V）、Current of contact point（1－100mA） Pin No. Contents of signal

A1 Output cutoff alarm a contact(OPEN at alarming) A2 Output cutoff alarm common A3 Output cutoff alarm b contact(CLOSE at

alarming) B1 Upper/Lower temperature limit alarm a contact

(OPEN at alarming) B2 Upper/Lower temperature limit alarm common B3 Upper/Lower temperature limit alarm b contact

(CLOSE at alarming) ④Communication connector（RS-485）

DDK Equivalent to 17JE-13090-02（D1） Interfitting connector：17JE-23090-02（D8A） Pin No. Contents of signal

1 RS-485 BUS ＋ 2 RS-485 BUS －

3、4 Unused 5 SG

6－9 Unused ⑤Communication connector（RS-232C）

DDK Equivalent to 17JE-13090-02（D1） Interfitting connector：17JE-23090-02（D8A） Pin No. Contents of signal

1 Unused 2 RS-232C RD 3 RS-232C SD 4 Unused 5 SG

6－9 Unused

１4．Ｓｐｅｃｉｆｉｃａｔｉｏｎ ｏｆ Ｃｏｎｎｅｃｔｏｒｓ

2

3

1

A1A2

A3 B3B2

B1

5

4 3

2 1

678

9

２９

1) Measure the ambient temperature and humidity. 2) Plot ambient temperature to the temperature of horizontal axis (ex.24℃), then draw perpendicular

line. 3) Obtain intersection (A) of the curve which is almost equal to ambient temperature and the

perpendicular of 2). 4) Draw a line from (A) in parallel to temperature axis ,and obtain the intersection (B) of that line and

the curve of relative humidity 100%. 5) Draw perpendicular line from the intersection (B). The temperature of the intersection of that line and

the temperature axis is dew-point temperature. (ex.13℃) *Therefore, moist in the air starts to be formed into dew when the temperature becomes lower than

this temperature.

１5．Ｈｏｗ ｔｏ Fｉｎｄ Dｅｗ Pｏｉｎｔ(ｆｒｏｍ ａ ｐｓｙｃｈｒｏｍｅｔｒｉｃ ｃｈａｒｔ)

Point APoint B100

90807060

504540

3530

55

4 10 20 302413

Temperature ℃

Relative humidity ％