Elite.Parts

Description

KOYO F4-08THM PLC Thermocouple Modules - Input Module 7 Point TC 1DEG Resolution

Part Number

F4-08THM

Price

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Manufacturer

KOYO

Lead Time

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Category

TEMPERATURE INPUT MODULES

Specifications

Absolute Maximum Ratings

Fault-protected inputs to ± 50VDC

Common Mode Range

± 5VDC

Common Mode Rejection

90dB min. @ DC, 150dB min. @ 50/60Hz

Input Impedance

Number of Channels

8, differential

Power Budget Requirements

110mA max., 5VDC (supplied to base)

Resolution

16 bit (1 in 65535)56.25mVDC

Shock

MIL STD 810C 516.2

Vibration

MIL STD 810C 514.2

Voltage Ranges

0-5V, ± 5V, 0-156.25mV, ± 1

Datasheet

F4-08THM_d-1694560202s.pdf

312 KiB

Download

Extracted Text

Temperature Input Modules F4-08THM 8-Channel Thermocouple Input <---> General Specifications Thermocouple Specifications Type J -190 to 760°C -310 to 1400°F Number of Channels 8, differential Type E -210 to 1000°C -346 to 1832°F Common Mode Range ± 5VDC Type K -150 to 1372°C -238 to 2502°F Common Mode Rejection 90dB min. @ DC, 150dB min. @ 50/60Hz. Type R 65 to 1768°C 149 to 3214°F Type S 65 to 1768°C 149 to 3214°F Input Ranges* Type T -230 to 400°C -382 to 752°F Type B 529 to 1820°C 984 to 3308°F Input Impedance 1M Type N -70 to 1300°C -94 to 2372°F Type C 65 to 2320°C 149 to 4208°F Absolute Maximum Ratings Fault-protected inputs to ± 50VDC Display Resolution ± 0.1°C or ± 0.1°F ± 5ppm/°C maximum full scale calibration Accuracy vs. Temperature Cold Junction Compensation Automatic (including maximum offset change) PLC Update Rate 8 channels per scan max Conversion Time 100ms per channel 16 binary data bits, 2 channel ID bits, 4 30 minutes typically ± 1°C repeatability Digital Inputs Warm-Up Time diagnostic bits Input Points Required 32 points (X) input module Linearity Error (End to End) ± .05°C maximum, ± .01°C typical Removable (D4-16IOCON) Terminal Type (included) External Power Supply 60mA maximum, 18 to 26.4VDC Maximum Inaccuracy ± 3°C (excluding thermocouple error) Power Budget 110mA max., 5VDC (supplied to base) Voltage Input Specifications Requirements 0° to 60°C (32° to 140°F) 0-5V, ± 5V, 0-156.25mV, ± 156.25mVDC Operating Temperature Voltage Ranges Storage Temperature -20° to 70°C (-4° to 158°F) Resolution 16 bit (1 in 65535) Full Scale Calibration Error 5 to 95% (non-condensing) ± 13 counts typical, ± 33 maximum Relative Humidity (Offset error Included) No corrosive gases permitted ± 1 count maximum, @ 0V input Environmental Air Offset Calibration Error Vibration MIL STD 810C 514.2 Linearity Error (End to End) ± 1 count maximum MIL STD 810C 516.2 ± 02% @ 25°C (77°F) Shock Maximum Inaccuracy NOTE 1: Terminate shields at the respective signal source NOTE 2: Leave unused channels open (no connection) Noise Immunity NEMA ICS3-304 *Thermocouple type is selected by setting internal jumpers NOTE 3: This module is not compatible with the Z ZI IP PLink wiring system. Voltage Input Wiring Diagram Thermocouple Input Wiring Diagram Internal Module Wiring TEMPERATURE INPUT Note 3: When using 0-156mV and 5V ranges, connect CH- A/D THERMOCOUPLE terminal to Com or 0V terminal to ensure common mode range acceptance. Also, connect any unused channels See note Internal Module Wiring F4–08THM to Com or 0V terminal. Com TEMPERATURE INPUT A/D –1 THERMOCOUPLE CH1 F4–08THM +1 COM Com CH1– –2 –1 Voltage Examples of differential CH1+ +1 +2 Transmitter COM Thermocouple wiring CH2– CH1– –2 –3 CH2+ CH1+ CH3 +2 +3 CH3– CH2– –3 CH3+ CH2+ –4 +3 CH4– CH3– CH4 +4 CH3+ CH4+ –4 Voltage Com CH4– COM +4 Analog Transmitter CH4+ –5 Switch CH5– Com COM Analog CH5+ CH5 +5 –5 Switch CH5– CH6– CH5+ +5 –6 CH6+ CH6– –6 +6 CH7– CH6+ +6 Examples of grounded CH7– –7 CH7+ Thermocouple wiring CH7+ CH8– –7 +7 CH8– CH8+ +7 –8 CH8+ COM –8 COM CH8 +8 Voltage 24V +8 24V Transmitter 0V Com 0V Com User Supply 24V+ User Supply 24V+ 24V @60mA 24V @60mA 0V 0V 24VDC ±10% Class 2 24VDC ±10% Class 2 Volume 13 Programmable Controllers 1 - 8 0 0 - 6 3 3 - 0 4 0 5 e6-86 Check the Power Budget This logo is placed next to I/O modules Verify your power budget Calculating your power that are supported by the Z ZIIP PLink connec- requirements tion systems. usage See the I/O module specifications at the Your I/O configuration choice can be The following example shows how to affected by the power requirements of the end of this section. calculate the power budget for the DL405 I/O modules you choose. When deter- system. The example is constructed around mining the types and quantity of I/O a single 8-slot base using the devices modules you will be using, it is important shown. It is recommended you construct a to remember there is a limited amount of similar table for each base in your system. power available from the power supply. The chart on the opposite page indicates A the power supplied and used by each Base Number External 24 VDC DL405 device. The adjacent chart shows Device Type 5 VDC (mA) 0 Power (mA) an example of how to calculate the power used by your particular system. These two B CURRENT SUPPLIED charts should make it easy for you to CPU/Expansion Unit D4-440 CPU 3700 400 determine if the devices you have chosen /Remote Slave fit within the power budget of your system C CURRENT REQUIRED configuration. D4-16ND2 +150 +0 If the I/O you have chosen exceeds the SLOT 0 maximum power available from the power SLOT 1 D4-16ND2 +150 +0 supply, you can resolve the problem by SLOT 2 F4-04DA +120 +100 shifting some of the modules to an expan- D4-08ND3S +100 +0 SLOT 3 sion base or remote I/O base (if you are using remote I/O). SLOT 4 D4-08ND3S +100 +0 Warning: It is extremely important to calculate the SLOT 5 D4-16TD2 +100 +0 power budget correctly. If you exceed the power budg- D4-16TD2 +100 +0 et, the system may operate in an unpredictable man- SLOT 6 ner which may result in a risk of personal injury or SLOT 7 D4-16TR +1000 +0 equipment damage. D OTHER D4-08B +80 +0 Use ZIPLinks to reduce BASE Handheld Programmer D4-HPP +320 +0 power requirements 2820 100 E Maximum Current Required If your application requires a lot of relay outputs, consider using the ZipLink AC or F Remaining Current Available 3700-2820=880 400-100=300 DC relay output modules. These modules 1. Using a chart similar to the 3one above, fill in column 2. can switch high current (10A) loads 2. Using the tables on the opposite page, enter the current supplied and used by each device (columns 3 and 4). Pay special attention to the cur- rent supplied by the CPU, Expansion Unit, and Remote Slave since they differ. Devices which fall into the "Other" category (Row D) are devices such without putting a load on your base power as the Base and the Handheld programmer, which also have power requirements, but do not plug directly into the base. 3. Add the current used by the system devices (columns 3 and 4) starting with Slot 0 and put the total in the row labeled "maximum current budget. Refer to Wiring System for DL405 required" (Row E). PLCs later in this section for more informa- 4. Subtract the row labeled "Maximum current required" (Row E), from the row labeled "Current Supplied" (Row B). Place the difference in the row labeled "Remaining Current Available" (Row F). tion. 5. If "Maximum Current Required" is greater than "Current Supplied" in either column 3 or 4, the power budget will be exceeded. It will be unsafe to use this configuration and you will need to restructure your I/O configuration. Note the auxiliary 24 VDC power supply does not need to supply all the external power. If you need more than the 400mA supplied, you can add an external 24VDC power supply. This will help keep you within your power budget for external power. DL405 CPU power supply specifications and power requirements Specification AC Powered Units 24 VDC Powered Units 125 VDC Powered Units D4-450, D4-440, D4-430, D4-450DC-1, D4-440DC-1, D4-450DC-2 Part Numbers D4-EX (expansion base unit), D4-EXDC (expansion base unit), D4-440DC-2 D4-RS (remote slave unit) D4-RSDC (remote slave unit) Voltage Withstand (dielectric) 1 minute @ 1,500 VAC between primary, secondary, field ground, and run relay > 10M at 500VDC Insulation Resistance 85-132 VAC (110 range) 170-264 VAC (220 20-28 VDC (24 VDC) 90-146 VDC (125 VDC) Input Voltage Range range with less than 10% ripple with less than 10% ripple 20 A 20 A 20 A Maximum Inrush Current Maximum Power 50 VA 38 W 30 W Volume 13 Programmable Controllers 1 - 8 0 0 - 6 3 3 - 0 4 0 5 e6-24 Company Power Requirements Information Systems Overview Programmable Power Supplied Controllers CPUs/Remote Units/ 5 VDC Current 24V Aux Power CPUs/Remote 5V Current Supplied 24VAux. Power Expansion Units Supplied in mA Supplied in mA Units/Expansion Units in mA Supplied in mA Field I/O D4-430 CPU 3700 400 D4-EX 4000 400 D4-440 CPU 3700 400 D4-EXDC 4000 NONE Software D4-440DC-1 CPU 3700 NONE D4-EXDC-2 3700 NONE D4-440DC-2 CPU 3700 NONE D4-RS 3700 400 C-more & D4-450 CPU 3100 400 D4-RSDC 3700 NONE other HMI D4-450DC-1 CPU 3100 NONE H4-EBC 3470 400 D4-450DC-2 CPU 3100 NONE H4-EBC-F 3300 400 Drives Power Consumed Soft Power-consuming 5V Current External 24VD Power-consuming 5V Current External 24VDC Starters Device Consumed Current Required Device Consumed Current Required Motors & I/O Bases Analog Modules (continued) Gearbox Steppers/ D4-04B-1 80 NONE Servos F4-16AD-1 75 100 D4-06B-1 80 NONE F4-16AD-2 75 100 D4-08B-1 80 NONE F4-04DA-1 70 75+20per circuit Motor Controls F4-04DA-2 90 90 F4-04DAS-1 60 60 per circuit F4-04DAS-2 60 60 per circuit Proximity DC Input Modules Sensors F4-08DA-1 90 100+20 per circuit F4-08DA-2 80 150 F4-16DA-1 90 100+20 per circuit Photo Sensors F4-16DA-2 80 25 max. D4-08ND3S 100 NONE F4-08RTD 80 NONE D4-16ND2 150 NONE F4-08THM-n 120 50 Limit D4-16ND2F 150 NONE Switches F4-08THM 110 60 D4-32ND3-1 150 NONE D4-32ND3-2 150 NONE Encoders D4-64ND2 300 max. NONE Remote I/O Current Sensors AC Input Modules H4-ERM 320 NONE Pressure D4-08NA 100 NONE Sensors H4-ERM-F 450 NONE D4-16NA 150 NONE D4-RM 300 NONE Temperature Sensors AC/DC Input Modules D4-16NE3 150 NONE Communications and Networking Pushbuttons/ F4-08NE3S 90 NONE Lights DC Output Modules H4-ECOM100 300 NONE Process H4-ECOM-F 670 NONE D4-08TD1 150 35 D4-DCM 500 NONE Relays/ F4-08TD1S 295 NONE F4-MAS-MB 235 NONE Timers D4-16TD1 200 125 FA-UNICON NONE 65 D4-16TD2 400 NONE Comm. D4-32TD1 250 140 D4-32TD1-1 250 140 (15V) D4-32TD2 350 120 (4A max Terminal CoProcessors Blocks & including loads) Wiring D4-64TD1 800 NONE F4-CP128-1 305 NONE Power AC Output Modules Specialty Modules D4-08TA 250 NONE Circuit Protection D4-16TA 450 NONE H4-CTRIO 400 NONE Relay Output Modules Enclosures D4-INT 100 NONE D4-HSC 300 NONE Tools D4-08TR 550 NONE F4-16PID 160 NONE F4-08TRS-1 575 NONE F4-8MPI 225 170 F4-08TRS 575 NONE D4-16SIM 150 NONE Pneumatics D4-16TR 1000 NONE F4-4LTC 280 75 Appendix Analog Modules Programming Product D4-HPP-1 (Handheld Prog.) 320 NONE Index Operator Interface F4-04AD 85 100 Part # F4-04ADS 270 120 DV-1000 150 NONE Index F4-08AD 75 90 C C- -m mo or re e Micro-Graphic 210 NONE Volume 13 w w w . a u t o m a t i o n d i r e c t . c o m / d l 4 0 5 Programmable Controllers e6-25

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At GID Industrial (Elite.Parts' parent company), we specialize in procuring industrial parts. We know where to find the rare and obsolete equipment that our customers need in order to get back to business. There are other companies who claim to do what we do, but we're confident that our commitment to quality and value is unparalleled in our field.

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One of our top priorities is maintaining our business with precision, and we are constantly looking for affiliates that can help us achieve our goal. With the aid of GID Industrial, our obsolete product management has never been more efficient. They have been a great resource to our company, and have quickly become a go-to supplier on our list!

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With our strict fundamentals and high expectations, we were surprised when we came across GID Industrial and their competitive pricing. When we approached them with our issue, they were incredibly confident in being able to provide us with a seamless solution at the best price for us. GID Industrial quickly understood our needs and provided us with excellent service, as well as fully tested product to ensure what we received would be the right fit for our company.

Fuji

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Applied Materials

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Over the years, the equipment used in our company becomes discontinued, but they’re still of great use to us and our customers. Once these products are no longer available through the manufacturer, finding a reliable, quick supplier is a necessity, and luckily for us, GID Industrial has provided the most trustworthy, quality solutions to our obsolete component needs.

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When I can't find an obsolete part, I first call GID and they'll come up with my parts every time. Great customer service and follow up as well. Scott emails me from time to time to touch base and see if we're having trouble finding something.....which is often with our 25 yr old equipment.

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