Woodward 9907-164
  • Woodward 9907-164 Woodward 9907-164
  • Woodward 9907-164 Woodward 9907-164
  • Woodward 9907-164 Woodward 9907-164

Woodward 9907-164

Brand: Woodward
Description: Digital Governor
Condition: Brand New
Certificate:COO TEST REPORT WARRANTY LETTER
Warranty: 1 year
Inventory Qty: 10
Payment Term: T/T
Shipping Port: ShenZhen
In the process of industrial automation upgrades and renovations, Woodward 9907-164 contains unique value can be a more convenient way to realize system upgrades, enhance the adaptability of the equipment and service life, is the ideal solution.

Send Inquiry

Product Description

Manufacture
Woodward
Model Number
9907-164
Ordering Number
9907-164
Catalog
-
Country Of Origin
American
HS CODE
85389091
Dimension
5.7*4.2*8.6cm
Packing Dimension
8*6*10cm
Weight
0.2kg

Technical Parameter

Operating Temperature: –4 to +140 F.

Storage Temperature: −40 to +185 F.

Input Voltage: + 24 VDC at 1 A

Output Voltage: 0 - 10 VDC.

Enclosure Type: IP 56

Humidity: 20 to 55 °C at 95% for 48hrs

Communication Interfaces: RS-232, Ethernet.

Slot Type: RS-232/RS-422 with Modbus protocol.


Function Features

Active current sharing ability: It is worth mentioning that when using several Woodward 9907-164 in parallel, they automatically and correctly redistribute the load current. In this way, not only does the total output power capacity increase, but also system redundancy and diversity.

Digital Surveillance and Management: Woodward 9907-164 features a digital interface that enables thorough scrutiny and management of a wide range of parameters. It also allows remote monitoring of output voltage, current, temperature, and other important variables. Moreover, the voltage trim, current limits, etc can be set, allowing for significant flexibility to meet different application requirements.

Fault Detection and Reporting: Woodward 9907-164 has protections for overvoltage, overcurrent, overtemperature, and short-circuit. When a fault is detected, it immediately reports the fault via the digital interface and can take protective actions including shutting down the output to avoid equipment damage.

Soft-Start Function: Woodward 9907-164 comes with soft-Start function which ramps the output voltage during a gradual soft-start process. This reduces inrush currents that can destroy the power supply itself or at least a load in the circuit, especially in systems with delicate loads or large capacitive components.

High Power DensityHigh Power Density: Woodward 9907-164 offers a high power density due to its high switching frequency and efficient circuit design. It can provide considerable power in a fairly small physical footprint, which makes it a space-saver in industrial control cabinets and machine enclosures.


Applications

Telecommunications: In the case of telecommunication base stations and network equipment, it provides power to key components such as RF amplifiers, signal processors, and communication controllers.

Industrial Automation: It is being used in Programmable Logic Controllers (PLC), motor drives, and industrial robots. That is why it is important that these devices operate accurately and reliably. Woodward 9907-164 gives them the stable power they need to do so during the smooth running of automated production lines.

Data Centers: It provides power to servers, storage devices, and networking equipment in data center power distribution units (PDUs) and server racks. These help ensure that the data center infrastructure is comprised of healthy resources and are not causing downtime through faults.

Medical Equipment: Woodward 9907-164 is applied in a variety of medical devices such as imaging systems (MRI, CT scanners), patient monitors, and laboratory equipment. The precise voltage regulation and high reliability are crucial for the accurate operation and patient safety of these medical devices.




Hot Tags: Woodward, 9907-164, Digital Governor

Related Category

Send Inquiry

Please Feel free to give your inquiry in the form below. We will reply you in 24 hours.
X
We use cookies to offer you a better browsing experience, analyze site traffic and personalize content. By using this site, you agree to our use of cookies. Privacy Policy
Reject Accept