Mô đun Honeywell CC-PAIH51 51410069-275 High Level Analog Input Module with HART
Honeywell CC-PAIH51 51410069-275 High Level Analog Input Module with HART
QUICK DETAILS
- Digital Input Module
- Voltage :24V
- 51410069-275
DESCRIPTION
- Digital Input Module
- PWA Module
- MEASUREX
- I/O Module and Field Terminations are Combined in the Same Area
- 2-Level “Detachable” Terminals
- Field Power can be Supplied Through the IOTA
- Redundancy is Available Directly on the IOTA
OTHER SUPERIOR PRODUCTS
Description
| Modules | Description |
|
CU-CBDS01 |
Series C, Single Access Cabinet |
| CU-CBDD01 | Series C, Dual Access Cabinet |
| CC-MCAR01 | IOTA Carrier Channel Assembly |
| Ca-PCNT01 | C300Controi Processor |
|
Ca-TCNT01 |
C300Controi Processor IOTA |
| Ca-PAIH01 | Hi-level AI HART |
| CA-TAIX01 | Hi-level AI HART IOTA |
| Ca-TAIX11 | Hi-level AI HART IOTA – Redundant |
|
Ca-PAOH01 |
AO 16pt HART |
| Ca-TAOX01 | AOIOTA |
| Ca-TAOX11 | AO IOTA – Redundant |
| Ca-PDIL01 | Dl24V |
| Ca-TDIL01 | Dl24VIOTA |
|
Ca-TDIL11 |
DI 24V IOTA – Redundant |
| Ca-PDOB01 | DO 24V Bussed Out |
| Ca-TDOB01 | DO 24V Buss IOTA |
| Ca-TDOB11 | DO 24V Buss IOTA – Redundant |
|
Ca-TDOR01 |
DO Relay IOTA |
| Ca-TDOR11 | DO Relay IOTA – Redundant |
| Ca-SDOR01 | DO Relay Extension Board |
| Ca-PFB401 | Fieldbus – 4 Nets |
|
Ca-TFB402 |
Fieldbus IOTA – 4 Nets |
| Ca-TFB412 | Fieldbus IOTA – Redundant – 4 Nets |
| Ca-PAIM01 | PMIOLLMux |
| Ca-TAIM01 | PMIO LLMux IOTA |
| Ca-TAMT04 | LLMuxTCFTA |
|
Ca-TAMR01 |
LLMux RTD FTA |
| Ca-PCF901 | Control Firewall (8 port + 1 uplink) |
| Ca-TCF901 | Control Firewall IOTA |
| Ca-FSMx01 | FTE Single Model Fiber Module |
|
Ca-FMMx01 |
FTE Multi-Model Fiber Module |
Gases that trap heat in the atmosphere are called greenhouse gases. CO2 is the principal greenhouse gas, but other gases can have the same heat-trapping effect (Figure 5). Some of these other greenhouse gases, however, have a much stronger greenhouse, or heat-trapping, effect than CO2. For example, methane is 21 times more potent a greenhouse gas than CO2. Different GHGs have different atmospheric life times, and therefore actions to reduce emissions will take time to effect reductions of gases in the atmosphere. The principal, human-generated greenhouse gases that enter the atmosphere are Carbon Dioxide (CO2): Carbon dioxide enters the atmosphere through the burning of fossil fuels (oil, natural gas and coal).
Methane (CH4): Methane is emitted during the production and transport of coal, natural gas and oil. Methane emissions also result from livestock and other agricultural practices and by the decay of organic waste in municipal solid waste landfills and anaerobic wastewater treatment plants. CH4 is a greenhouse gas approximately 21 times more potent than CO2 and has an atmospheric lifespan of roughly 12 years (EPA, 2009c).
