Honeywell CC-TAOX11 Analog Output Module 51308353-175 Rev C
Rosemount PLC
- HONEYWELL
- MEASUREX
- CC-TAOX11
- CC-TAOX11
- CONTROLLER I/O TERMINATION ASSEMBLY
- AVAILABLE
- REBUILT SURPLUS
- NEW SURPLUS
- REPAIR YOURS
- 24-48 HOUR RUSH REPAIR
- 2 - 15 DAY REPAIR
- 2 YEAR RADWELL WARRANTY
- Brand :Honeywell
- Quality:Original
- Use: DCS
- Custom processing: Yes
- Application:Petrochemical and other fields
- Professional to provide a Honeywell DCS card, integrity services,
absolute guarantee is part of the original Honeywell new card, the
scope of services involved S9000, plantscape, TDC2000 TDC3000 (US
operation station), TPS (Gus operation station), PKS and Honeywell
DCS distributed control system
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-PAIH01 HLAI - HART CC-GAIX11 GI/IS Analog Input, Redundant
CC-PAIH01 HLAI - HART CC-GAIX21 GI/IS Analog Input, Non-Redundant
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
CC-PAIX01 HLAI CC-GAIX21 GI/IS Analog Input, Non-Redundant
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
CC-PAOH01 AO - HART CC-GAOX21 GI/IS Analog Output, Non-Redundant
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
CC-PAOX01 AO CC-GAOX21 GI/IS Analog Output, Non-Redundant
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
CC-PDIL01 DI - 24 CC-GDIL11 GI/IS Digital Input, Redundant
CC-PDIL01 DI - 24 CC-GDIL21 GI/IS Digital Input, Non-Redundant
CC-PDIL01 DI - 24 CC-SDIL01 GI/IS Digital Input Expander
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
CC-PDIS01 DI -SOE CC-GDIL11 GI/IS Digital Input, Redundant
CC-PDIS01 DI -SOE CC-GDIL21 GI/IS Digital Input, No-Redundant
CC-PDIS01 DI -SOE CC-SDXX01 GI-1I I/O Expander
CC-PDOB01 DO_24B CC-GDOL11 GI/IS Digital Output
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
CC-PFB401 FFB CC-TFB401 FIM4 Non-Redundant IO
CC-PFB401 FFB CC-TFB402 FIM4 Non-Redundant IO
CC-PFB401 FFB CC-TFB412 FIM4 Redundant IO
The tolerance of the REF5025 will produce gain errors in the ADC
transfer function as shown in Equation ( 30 ). 100 500.25ppm 1
0.05% 0.05% 100 1 V V Gain ErrorV V 0.05% REF Tol REF Tol REF REF
Tol ( 30 ) In current mode, the shunt resistor
is a 0.1% precision resistor which will also introduce gain error.
The INL is typically specified in either number of ADC codes or in
ppm FSR. Because INL is not a gain error, it must be multiplied by
the full-scale input voltage of the ADC rather than VIN_MAX, as
shown in Equation ( 31 ). In the +/-10 V Voltage mode, VIN_MAX
range is 4V. 7.5ppm 4 V 3 0 μV INL Error (ppm) 3 0 μV V V 1 2 2.5V
1,000,000 6 ppm Gain 2 V 1,000,000 INL INL Error (V) ADC REF ADC
( 31 ) Since the INA826, INA159 and ADS1248 errors
are uncorrelated, a probable total TUE of the industrial input
range of +/-10V output can be calculated by taking the root of the
sum of squares (RSS) of their individual errors, as shown in
Equation ( 32 ). V V V V 37 128 503 520ppm 2 2 2 2 ADS1248 2 INA159
2 TUE_PLC INA826 ( 32 ) Multiply VTUE_PLC by the
full-scale input range to calculate the total error in volts. For
+/-10V output range, the output error voltage is 10.38mV as
calculated in Equation ( 33 ). Verror_PLC VFS * VTUE_PLC 20V*
520ppm 10.38mV ( 33 ) The total current error caused by INA826,
INA159, ADS124
The PLC input circuit performance is based on the specifications of
INA826, INA159 and ADS1248. Due to the high differential impedance
of 20G Ω of the INA826, the offset caused by the input bias current
flowing through the filter resistor is negligible. INL, offset
voltage, gain error and CMRR of the INA826 at room temperature are
displayed in Table 6. The gain for INA826 is 1, VOSI (Input stage
offset voltage) and VOSO(output stage offset voltage) can be added
together directly and get the final VOS as 240uV.
High Efficiency Fanuc Motherboard Servo Motor Driver Board A20B-3900-0163
