Xantrex Technology RS232-HPD, RS232-XT manual Accumulated Status, Status, and Fault Registers on

Page 49

 

Operation

 

Command Reference

 

 

 

Command

Description

 

TRG

Causes programmed voltage and current settings which had been in hold

 

mode to be applied. The supply operates with previous values until the TRG

 

(trigger) command is sent.

 

 

 

UNMASK <mnemonics>

Selects the supply operating conditions that you are most interested in

 

monitoring for fault occurrence. Mnemonics describing the conditions are

 

separated from each other by commas, and may be sent in any order.

 

Specifying one or more mnemonics which describe the conditions (or the

 

decimal equivalent of their total bit weight) enables the selected conditions

 

to set bits in the supply’s fault and status registers during operation. A bit is

 

set in the fault register when the corresponding bit in the status register

 

changes from 0 to 1 and the corresponding bit in the mask register is 1. See

 

“Accumulated Status, Status, and Fault Registers” on page 49.

 

Mnemonics: CV, CC, OV, SD, FOLD, ERR, ALL, NONE

 

Initial value: UNMASK NONE

 

UNMASK?

Returns the supply's fault conditions which are currently enabled

 

(unmasked).

 

Response: UNMASK <fault mask> where fault mask is the decimal

 

equivalent of the total bit weights for the operating conditions as listed in the

 

status and fault registers See “Accumulated Status, Status, and Fault

 

Registers” on page 49.

 

VDATA <Vlo>,<Vhi>

Calculates and records the slope and offset for programmed voltage using

 

VLO and VHI data. Set CMODE ON before using this command. See also

 

the calibration procedures in Section 4.

 

<Vlo> and <Vhi> are in <voltage> format.

 

 

 

VHI

In response to this command, the power supply sends a programmed

 

voltage value to the output terminal. This value is at the high end of the

 

power supply’s voltage range and is read by an external device connected

 

as part of the calibration procedure. Refer to this value as VHI and record it

 

to use as input with the VDATA command. Set CMODE ON before using

 

this command. See also the calibration procedures in Section 4.

 

 

 

VLO

In response to this command, the power supply sends a programmed

 

voltage value to the output terminal. This value is at the low end of the

 

power supply’s voltage range and is read by an external voltmeter

 

connected as part of the calibration procedure. Refer to this value as VLO

 

and record it to use as input with the VDATA command. Set CMODE ON

 

before using this command. See also the calibration procedures in

 

Section 4.

 

Release 1.1

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Contents RS232-HPD Page Internal RS-232 Interface for XT 60 Watt HPD 300 Watt Series Phone 604 422 Toll Free North America 800 667 Fax 604 421 How do you get service?What does this warranty not cover? Disclaimer Product Release Release 1.1 Information About Your Power SupplyModel Number Serial Number Purchased From Purchase Date Supply SafetyMain Sections Installation and ConfigurationManual Revisions About This Manual Contents Contents Description Features and SpecificationsFeatures Features and FunctionsFeatures and Specifications Readback FunctionsModels 15-4 20-3 30-2 60-1 120-0.5 250-0.25 SpecificationsModels 15-20 30-10 60-5 Initial Inspection IntroductionPower Supply Front Panel with RS-232 Interface Installed See next page for designation descriptions Open See .13, on LED IndicatorsBasic Setup Procedure See Power Supply Settings on See Connector J7 User SignalsSee Baud Rate Selection on Flow Control Selection onBaud Rate CommunicationsXON Switch Setting Condition Flow Switch Setting ConditionJumper Connections RS-232 Connector Pin Jumper J7 Connections RS-232 Connector Pin Power Supply DCE Host Computer DTE Pin connectorJumper J95 Position Operating State Switch Position Power on resultsCondition Default Settings 60 W 7-6 Model Example RS-232 Connection RS-232 Connector J4 Pinouts default configurationParameter Setting Power Supply Settings13 OVP Control Mode Selection User Options and SettingsHigh OFF LOW User Signals J7 Connector User SignalsJ7 User Signal Connector Circuit Block Diagram J7 User Cable with Ferrite Block Installation and Configuration RS-232 Operation Command SyntaxOperation VoutFormat Floating Number Definition Example Description FormExample Command Description Command SummaryAUXA? Cmode Auxa 1 on Command ReferenceRegister. See Error Codes on Returns the supply’s present foldback setting Command on Status, and Fault Registers on Registers on Accumulated Status, Status, and Fault Registers onReturns the supply’s soft voltage limit setting Accumulated Status, Status, and Fault Registers REM Condition Mnemonic Bit Position Bit WeightError # Error Identification Explanation Error CodesLEDs TroubleshootingCalibration Setup Voltage Mode CalibrationVoltage Program Calibration Procedure VoltageVoltage Readback Calibration Procedure Current Calibration Setup Current Mode CalibrationCurrent Program Calibration Procedure Current Readback Calibration Procedure Over Voltage Protection OVP Calibration Page Xantrex Technology Inc

RS232-XT, RS232-HPD specifications

Xantrex Technology has made significant strides in the field of power electronics, particularly with its RS232-HPD and RS232-XT communication interfaces. These devices are designed to enhance the efficiency and reliability of power management systems, providing users with advanced features and robust technologies.

The RS232-HPD (High Power Device) is optimized for high-performance applications, enabling seamless communication between power devices and control systems. One of its key features is its compatibility with a wide range of power inverters and converters, making it suitable for diverse applications including renewable energy systems, industrial automation, and marine power solutions. The RS232-HPD supports higher baud rates, allowing for faster data transmission and improved responsiveness in monitoring and control operations.

On the other hand, the RS232-XT (Extended Temperature) variant takes durability to the next level. It is designed to operate in extreme temperature conditions, which is crucial for applications located in harsh environments. The RS232-XT retains all the fundamental benefits of the RS232-HPD while providing additional resilience against temperature fluctuations. This feature is particularly advantageous for outdoor installations, where temperature extremes can impact performance and reliability.

Both the RS232-HPD and RS232-XT are equipped with extensive diagnostic tools that enable users to monitor system performance in real-time. These tools include error detection algorithms and status monitoring, which help in identifying potential issues before they escalate. The user-friendly interface simplifies the setup process, making it accessible for both experienced users and those new to power system management.

A standout characteristic of these interfaces is their robust communication protocols, designed to ensure secure data transmission. With built-in protection against common electrical anomalies, such as voltage spikes and electromagnetic interference, the Xantrex RS232 series guarantees uninterrupted operation and data integrity.

Integration with existing systems is straightforward, thanks to their standard RS232 connectivity. This compatibility makes them ideal for retrofitting older systems without the need for significant infrastructure changes.

In conclusion, Xantrex Technology's RS232-HPD and RS232-XT interfaces are exemplary solutions for advanced power management, offering high performance, durability, and ease of use. Their innovative features and robust technologies solidify Xantrex's position as a leader in the power electronics market. Whether for residential, commercial, or industrial applications, these devices stand ready to deliver efficient and reliable power management solutions.
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