Honeywell CC-TAIM01 Low Level Mux Module 51305959-175 Rv B1 Rosemount PLC TAIMO1

Honeywell CC-TAIM01 Low Level Mux Module 51305959-175 Rv B1 Rosemount PLC TAIMO1

QUICK DETAILS
Manufacturer’s Declared Parameters
Input / Output Model CC-TAIN11 ​ – 24Volt Digital Input
IOTA Models CC-TAIN11
51305959-175
Non Redundant 6”
CC-TAIM01
CC-TAIM01
Redundant 12”
Input Channels 32

OTHER SUPERIOR PRODUCTS

SIMILAR PRODUCTS

CC-PAIH01 HLAI - HART CC-GAIX11 GI/IS Analog Input, Redundant X
CC-PAIH01 HLAI - HART CC-GAIX21 GI/IS Analog Input, Non-Redundant X
CC-PAIH01 HLAI - HART CC-TAIX01 AI, Non-Redundant, Coated
CC-PAIH01 HLAI - HART CC-TAIX11 AI, Redundant, Coated
CC-PAIX01 HLAI CC-GAIX11 GI/IS Analog Input, Redundant X
CC-PAIX01 HLAI CC-GAIX21 GI/IS Analog Input, Non-Redundant X
CC-PAIX01 HLAI CC-TAIX01 AI, Non-Redundant, Coated
CC-PAIX01 HLAI CC-TAIX11 AI, Redundant, Coated
CC-PAIM01 AI - LLMUX CC-TAIM01 AI, Low Level Mux, Non-Redundant, Coated
CC-PAIM01 AI- LLMUX MC-TAMR04 LLMUX-RTD; SINGLE IOP INTERFACE;COMP TERM, Coated
CC-PAIM01 AI- LLMUX MC-TAMT04 LLMUX-TC; LOCAL CJR SINGLE IOP INTERFACE;COMP TERM, Coated
CC-PAIM01 AI- LLMUX MC-TAMT14 LLMUX-TC; LOCAL CJR SINGLE IOP INTERFACE;COMP TERM, Coated
CC-PAOH01 AO - HART CC-GAOX11 GI/IS Analog Output, Redundant X
CC-PAOH01 AO - HART CC-GAOX21 GI/IS Analog Output, Non-Redundant X
CC-PAOH01 AO - HART CC-TAOX01 AO, Non-Redundant, Coated
CC-PAOH01 AO - HART CC-TAOX11 AO, Redundant, Coated
CC-PAOX01 AO CC-GAOX11 GI/IS Analog Output, Redundant X
CC-PAOX01 AO CC-GAOX21 GI/IS Analog Output, Non-Redundant X
CC-PAOX01 AO CC-TAOX01 AO, Non-Redundant, Coated
CC-PAOX01 AO CC-TAOX11 AO, Redundant, Coated
CC-PDIH01 DI - HV CC-TDI110 120 VAC Digital Input High Voltage, Non-Redundant
CC-PDIH01 DI - HV CC-TDI120 120 VAC Digital Input High Voltage, Redundant
CC-PDIH01 DI - HV CC-TDI220 240 VAC Digital Input High Voltage, Non-Redundant
CC-PDIH01 DI - HV CC-TDI230 240 VAC Digital Input High Voltage, Redundant
CC-PDIL01 DI - 24 CC-GDIL01 GI/IS Digital Input, Redundant X
CC-PDIL01 DI - 24 CC-GDIL11 GI/IS Digital Input, Redundant X
CC-PDIL01 DI - 24 CC-GDIL21 GI/IS Digital Input, Non-Redundant X
CC-PDIL01 DI - 24 CC-SDIL01 GI/IS Digital Input Expander X
CC-PDIL01 DI - 24 CC-TDIL01 24V DI, Redundant, Coated
CC-PDIL01 DI - 24 CC-TDIL11 24V DI, Redundant, Coated
CC-PDIS01 DI -SOE CC-TDIL01 24V DI, Redundant, Coated
CC-PDIS01 DI -SOE CC-TDIL11 24V DI, Redundant, Coated
CC-PDIS01 DI -SOE CC-GDIL01 GI/IS Digital Input, Redundant X
CC-PDIS01 DI -SOE CC-GDIL11 GI/IS Digital Input, Redundant X
CC-PDIS01 DI -SOE CC-GDIL21 GI/IS Digital Input, Non-Redundant X
CC-PDIS01 DI -SOE CC-SDXX01 GI-1I I/O Expander X
CC-PDOB01 DO_24B CC-GDOL11 GI/IS Digital Output X
CC-PDOB01 DO_24B CC-SDOR01 Digital Output HV Relay Module
CC-PDOB01 DO_24B CC-TDOB01 Digital Output 24V, Bussed, Non-Redundant
CC-PDOB01 DO_24B CC-TDOB11 Digital Output 24V, Bussed, Redundant
CC-PDOB01 DO_24B CC-SDXX01 GI-1I I/O Expander X
CC-PFB401 FFB CC-TFB401 FIM4 Non-Redundant IO
CC-PFB401 FFB CC-TFB402 FIM4 Non-Redundant IO
CC-PFB401 FFB CC-TFB412

 

 

For optimal performance of this design follow standard precision PCB layout guidelines, including proper decoupling very close to all mixed signal integrated circuits and providing adequate power and GND connections with large copper pours. The layout for the design is shown in Figure 8.

 

 

 

 

The temperature error in the thermistor circuit, it not only caused by offset voltage ,INL, gain error of ADS1248, but also the current source mismatch, current mismatch drift, and the resistors Rp , Rf1, Rf2 tolerant errors. Current source initial error and temperature drift won’t affect the performance due to the ratiometric measurement. The full ADC output code is calculated in Equation ( 42 ), and the ideal code output is simplified as Equation ( 43 ). The full-scale code span code can be calculated using Equation ( 44 ).

 

 

Total voltage error can be calculated by multiplying the full-scale range as shown in Equations ( 38 ) and . The voltage error can be translated to temperature error using the thermocouple sensitivity as shown in Equation ( 41 ).

 

 

 

 

 

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