Description
The National Instruments sbRIO-9269 C Series Voltage Output Module, with Part Number 781120-01, is engineered to provide channel-to-channel isolation with a 100 kS/s/channel simultaneous update rate.
This module includes 4 analog output channels, each supporting a voltage range of ±10 V and capable of delivering a maximum current of ±10 mA. When cascaded, these channels can achieve a maximum output voltage range of ±40 V. Its power consumption is up to 1 W when active and up to 120 µW in sleep mode, with thermal dissipation reaching 1.4 W at maximum and up to 77 mW during sleep mode.
The module’s 16-bit, high-performance R-2R DACs ensure precision outputs, which start at high impedance upon power-on and retain the high impedance state during shutdown. For enhanced safety, the sbRIO-9269 is equipped with short-circuit and overvoltage protection features, reflecting National Instruments’ commitment to quality and reliability.
Specification | Details |
---|---|
Part Number | 781120-01 |
Product Name | National Instruments sbRIO-9269 C Series Voltage Output Module |
Channel-to-Channel Isolation | Yes |
Simultaneous Update Rate | 100 kS/s/channel |
Analog Output Channels | 4 |
Voltage Range per Channel | ±10 V |
Maximum Current per Channel | ±10 mA |
Maximum Cascaded Output Voltage Range | ±40 V |
Power Consumption (Active) | Up to 1 W |
Power Consumption (Sleep Mode) | Up to 120 µW |
Thermal Dissipation (Maximum) | 1.4 W |
Thermal Dissipation (Sleep Mode) | Up to 77 mW |
DAC Type | 16-bit, high-performance R-2R |
Power-On Output State | High impedance |
Safety Features | Short-circuit protection, Overvoltage protection |
Question 1: What is the maximum output voltage range achievable when cascading the analog output channels of the National Instruments sbRIO-9269 C Series Voltage Output Module, and what are its power consumption and thermal dissipation values in both active and sleep modes?
Answer 1: The simultaneous update rate for each channel provided by the National Instruments sbRIO-9269 C Series Voltage Output Module is 100 kS/s, and its power consumption varies from up to 1 W when active to up to 120 µW in sleep mode.
Question 2: What is the simultaneous update rate for each channel provided by the National Instruments sbRIO-9269 C Series Voltage Output Module, and how does its power consumption vary between active use and sleep mode?
Answer 2: The National Instruments sbRIO-9269 C Series Voltage Output Module, with Part Number 781120-01, is capable of providing channel-to-channel isolation and has a simultaneous update rate of 100 kS/s per channel. It includes four analog output channels, each with a voltage range of ±10 V and maximum current delivery of ±10 mA, and can achieve a maximum output voltage range of ±40 V when cascaded. It features 16-bit high-performance R-2R DAC
Question 3: What are the capabilities and safety features of the National Instruments sbRIO-9269 C Series Voltage Output Module with Part Number 781120-01?
Answer 3: The safety features of the National Instruments sbRIO-9269 C Series Voltage Output Module include channel-to-channel isolation, short-circuit protection, and overvoltage protection, and its maximum power consumption when active is up to 1 W.
Question 4: What are the safety features of the National Instruments sbRIO-9269 C Series Voltage Output Module with Part Number 781120-01, and how do these features contribute to its reliability?
Answer 4: When cascading the analog output channels of the National Instruments sbRIO-9269 C Series Voltage Output Module, the maximum output voltage range achievable is ±40 V, with power consumption up to 1 W when active and up to 120 µW in sleep mode, and thermal dissipation reaching 1.4 W at maximum and up to 77 mW during sleep mode.
Question 5: What are the safety features of the National Instruments sbRIO-9269 C Series Voltage Output Module, and what is its maximum power consumption when active?
Answer 5: The National Instruments sbRIO-9269 C Series Voltage Output Module, with Part Number 781120-01, includes safety features such as channel-to-channel isolation, short-circuit, and overvoltage protection, which contribute to its reliability by preventing damage to the module and connected equipment in the event of electrical faults, thereby ensuring consistent performance and longevity of the device.