Mô đun New Honeywell Input Module CC-PDIS01 Digital Module 24V ASSY P/n: 51405042-175
New Honeywell Input Module CC-PDIS01 Digital Module 24V ASSY P/n: 51405042-175
Honeywell Supplier-Grandly Automation Ltd
Provide many hard-to-find Honeywell TDC2000 & TDC3000 parts
Current Parts Inventory Includes:
TDC 3000
TDC 2000
TPS System
LCN Processors & LCNP4 Boards
Advanced Process Manager – APM
Process Manager – PM
High Performance Process Manager – HPM
Network Interface Module – NIM
Hiway Gateways – HG
Advanced Multifunction Controller – AMC
IOP’s and FTA’s
Universal Station Parts
OTHER SUPERIOR PRODUCTS
Yasakawa Motor, Driver SG- | Mitsubishi Motor HC-,HA- |
Westinghouse Modules 1C-,5X- | Emerson VE-,KJ- |
Honeywell TC-,TK- | GE Modules IC – |
Fanuc motor A0- | Yokogawa transmitter EJA- |
SIMILAR PRODUCTS
CC-FSMX01
CC-KFSGR5
CC-MCAR01
CC-PAIH01
CC-PAIH02
CC-PAIM01,CC-PAIN01,CC-TAIM01,CC-TAIX11,CC-PDIL01,
CC-TDIL01 CC-TDIL11,CC-TDOB01,CC-PDOB01,CC-PDIL01,
CC-PAIX01
CC-PAIN01
CC-PAIX01
CC-PAOH01
CC-PAON01
CC-TAON01
CC-TAON11
CC-PAOX01
CC-PCF901
CC-PCNT01
CC-PDIH01
CC-PDIL01
CC-PDIS01
CC-PDOB01
CC-PWRN01
CC-PWRR01
CC-SCMB02
CC-SDOR01
CC-TAIM01
CC-TAIX01
CC-TAIX11
CC-TAOX01
CC-TAOX11
CC-TCF901
CC-TCNT01
CC-TDI220
CC-TDIL01
CC-TDIL11
CC-TDOB01
CC-TDOB11
CC-TDOR01
CC-TCF901
CC-PCF901
CC-TCNT01
СС-PCNT01
СС-SCMB02
CC-TAIX11
СС-TAOX11
CC-GAIX11
CC-GAIX11
СС-GDIL11
CC-PAIX-01
CC-PAOX01
CC-PDIL01
CC-TAIX11
CC-PAIX01
Each cabinet can accommodate a maximum of nearly 25 Series C IOs. The remaining space is taken up by the
redundant C300s and redundant/non-redundant ELMMs. Based on your requirement, you will have to plan for the
additional IOs that you may not be able to accommodate on the same cabinet.
In addition, Wiring, grounding, cable entry to the cabinet have to be assessed to ensure cabinets are placed in a
safe and accessible location. Depending on the location of the new cabinet, plan how to route IO cables to the
new cabinet.
The calculation procedure to achieve cold junction compensation is simple as shown in figure 21. Interleave readings between the thermocouple inputs and the thermistor input. If the cold junction is in a very stable environment, more periodic cold junction measurements may be sufficient. The thermistor voltage should be converted into the CJC temperature according to the Steinhart–Hart equation. Then, the cold junction temperature need to convert to a voltage that is proportional to the thermocouple currently being used, to yield VCJC. This process can be accomplished by performing a reverse lookup table used for the thermocouple voltage-to- temperature conversion or using high-order polynomial. Adding the two voltages then yields the thermocouple-compensated voltage VActual, where VCJC + VTC = VActual. VActual is then converted to temperature using the same method before, and yields TActual