/********************************************************************* * * $Id: svn_id $ * * Implements the high-level API for PowerSupply functions * * - - - - - - - - - License information: - - - - - - - - - * * Copyright (C) 2011 and beyond by Yoctopuce Sarl, Switzerland. * * Yoctopuce Sarl (hereafter Licensor) grants to you a perpetual * non-exclusive license to use, modify, copy and integrate this * file into your software for the sole purpose of interfacing * with Yoctopuce products. * * You may reproduce and distribute copies of this file in * source or object form, as long as the sole purpose of this * code is to interface with Yoctopuce products. You must retain * this notice in the distributed source file. * * You should refer to Yoctopuce General Terms and Conditions * for additional information regarding your rights and * obligations. * * THE SOFTWARE AND DOCUMENTATION ARE PROVIDED 'AS IS' WITHOUT * WARRANTY OF ANY KIND, EITHER EXPRESS OR IMPLIED, INCLUDING * WITHOUT LIMITATION, ANY WARRANTY OF MERCHANTABILITY, FITNESS * FOR A PARTICULAR PURPOSE, TITLE AND NON-INFRINGEMENT. IN NO * EVENT SHALL LICENSOR BE LIABLE FOR ANY INCIDENTAL, SPECIAL, * INDIRECT OR CONSEQUENTIAL DAMAGES, LOST PROFITS OR LOST DATA, * COST OF PROCUREMENT OF SUBSTITUTE GOODS, TECHNOLOGY OR * SERVICES, ANY CLAIMS BY THIRD PARTIES (INCLUDING BUT NOT * LIMITED TO ANY DEFENSE THEREOF), ANY CLAIMS FOR INDEMNITY OR * CONTRIBUTION, OR OTHER SIMILAR COSTS, WHETHER ASSERTED ON THE * BASIS OF CONTRACT, TORT (INCLUDING NEGLIGENCE), BREACH OF * WARRANTY, OR OTHERWISE. * *********************************************************************/ import { YAPIContext, YFunction } from './yocto_api.js'; /** * YPowerSupply Class: regulated power supply control interface * * The YPowerSupply class allows you to drive a Yoctopuce power supply. * It can be use to change the voltage and current limits, and to enable/disable * the output. */ export declare class YPowerSupply extends YFunction { _className: string; _voltageLimit: number; _currentLimit: number; _powerOutput: YPowerSupply.POWEROUTPUT; _measuredVoltage: number; _measuredCurrent: number; _inputVoltage: number; _voltageTransition: string; _voltageLimitAtStartUp: number; _currentLimitAtStartUp: number; _powerOutputAtStartUp: YPowerSupply.POWEROUTPUTATSTARTUP; _command: string; _valueCallbackPowerSupply: YPowerSupply.ValueCallback | null; readonly VOLTAGELIMIT_INVALID: number; readonly CURRENTLIMIT_INVALID: number; readonly POWEROUTPUT_OFF: YPowerSupply.POWEROUTPUT; readonly POWEROUTPUT_ON: YPowerSupply.POWEROUTPUT; readonly POWEROUTPUT_INVALID: YPowerSupply.POWEROUTPUT; readonly MEASUREDVOLTAGE_INVALID: number; readonly MEASUREDCURRENT_INVALID: number; readonly INPUTVOLTAGE_INVALID: number; readonly VOLTAGETRANSITION_INVALID: string; readonly VOLTAGELIMITATSTARTUP_INVALID: number; readonly CURRENTLIMITATSTARTUP_INVALID: number; readonly POWEROUTPUTATSTARTUP_OFF: YPowerSupply.POWEROUTPUTATSTARTUP; readonly POWEROUTPUTATSTARTUP_ON: YPowerSupply.POWEROUTPUTATSTARTUP; readonly POWEROUTPUTATSTARTUP_INVALID: YPowerSupply.POWEROUTPUTATSTARTUP; readonly COMMAND_INVALID: string; static readonly VOLTAGELIMIT_INVALID: number; static readonly CURRENTLIMIT_INVALID: number; static readonly POWEROUTPUT_OFF: YPowerSupply.POWEROUTPUT; static readonly POWEROUTPUT_ON: YPowerSupply.POWEROUTPUT; static readonly POWEROUTPUT_INVALID: YPowerSupply.POWEROUTPUT; static readonly MEASUREDVOLTAGE_INVALID: number; static readonly MEASUREDCURRENT_INVALID: number; static readonly INPUTVOLTAGE_INVALID: number; static readonly VOLTAGETRANSITION_INVALID: string; static readonly VOLTAGELIMITATSTARTUP_INVALID: number; static readonly CURRENTLIMITATSTARTUP_INVALID: number; static readonly POWEROUTPUTATSTARTUP_OFF: YPowerSupply.POWEROUTPUTATSTARTUP; static readonly POWEROUTPUTATSTARTUP_ON: YPowerSupply.POWEROUTPUTATSTARTUP; static readonly POWEROUTPUTATSTARTUP_INVALID: YPowerSupply.POWEROUTPUTATSTARTUP; static readonly COMMAND_INVALID: string; constructor(yapi: YAPIContext, func: string); imm_parseAttr(name: string, val: any): number; /** * Changes the voltage limit, in V. * * @param newval : a floating point number corresponding to the voltage limit, in V * * @return YAPI.SUCCESS if the call succeeds. * * On failure, throws an exception or returns a negative error code. */ set_voltageLimit(newval: number): Promise; /** * Returns the voltage limit, in V. * * @return a floating point number corresponding to the voltage limit, in V * * On failure, throws an exception or returns YPowerSupply.VOLTAGELIMIT_INVALID. */ get_voltageLimit(): Promise; /** * Changes the current limit, in mA. * * @param newval : a floating point number corresponding to the current limit, in mA * * @return YAPI.SUCCESS if the call succeeds. * * On failure, throws an exception or returns a negative error code. */ set_currentLimit(newval: number): Promise; /** * Returns the current limit, in mA. * * @return a floating point number corresponding to the current limit, in mA * * On failure, throws an exception or returns YPowerSupply.CURRENTLIMIT_INVALID. */ get_currentLimit(): Promise; /** * Returns the power supply output switch state. * * @return either YPowerSupply.POWEROUTPUT_OFF or YPowerSupply.POWEROUTPUT_ON, according to the power * supply output switch state * * On failure, throws an exception or returns YPowerSupply.POWEROUTPUT_INVALID. */ get_powerOutput(): Promise; /** * Changes the power supply output switch state. * * @param newval : either YPowerSupply.POWEROUTPUT_OFF or YPowerSupply.POWEROUTPUT_ON, according to * the power supply output switch state * * @return YAPI.SUCCESS if the call succeeds. * * On failure, throws an exception or returns a negative error code. */ set_powerOutput(newval: YPowerSupply.POWEROUTPUT): Promise; /** * Returns the measured output voltage, in V. * * @return a floating point number corresponding to the measured output voltage, in V * * On failure, throws an exception or returns YPowerSupply.MEASUREDVOLTAGE_INVALID. */ get_measuredVoltage(): Promise; /** * Returns the measured output current, in mA. * * @return a floating point number corresponding to the measured output current, in mA * * On failure, throws an exception or returns YPowerSupply.MEASUREDCURRENT_INVALID. */ get_measuredCurrent(): Promise; /** * Returns the measured input voltage, in V. * * @return a floating point number corresponding to the measured input voltage, in V * * On failure, throws an exception or returns YPowerSupply.INPUTVOLTAGE_INVALID. */ get_inputVoltage(): Promise; get_voltageTransition(): Promise; set_voltageTransition(newval: string): Promise; /** * Changes the voltage set point at device start up. Remember to call the matching * module saveToFlash() method, otherwise this call has no effect. * * @param newval : a floating point number corresponding to the voltage set point at device start up * * @return YAPI.SUCCESS if the call succeeds. * * On failure, throws an exception or returns a negative error code. */ set_voltageLimitAtStartUp(newval: number): Promise; /** * Returns the selected voltage limit at device startup, in V. * * @return a floating point number corresponding to the selected voltage limit at device startup, in V * * On failure, throws an exception or returns YPowerSupply.VOLTAGELIMITATSTARTUP_INVALID. */ get_voltageLimitAtStartUp(): Promise; /** * Changes the current limit at device start up. Remember to call the matching * module saveToFlash() method, otherwise this call has no effect. * * @param newval : a floating point number corresponding to the current limit at device start up * * @return YAPI.SUCCESS if the call succeeds. * * On failure, throws an exception or returns a negative error code. */ set_currentLimitAtStartUp(newval: number): Promise; /** * Returns the selected current limit at device startup, in mA. * * @return a floating point number corresponding to the selected current limit at device startup, in mA * * On failure, throws an exception or returns YPowerSupply.CURRENTLIMITATSTARTUP_INVALID. */ get_currentLimitAtStartUp(): Promise; /** * Returns the power supply output switch state. * * @return either YPowerSupply.POWEROUTPUTATSTARTUP_OFF or YPowerSupply.POWEROUTPUTATSTARTUP_ON, * according to the power supply output switch state * * On failure, throws an exception or returns YPowerSupply.POWEROUTPUTATSTARTUP_INVALID. */ get_powerOutputAtStartUp(): Promise; /** * Changes the power supply output switch state at device start up. Remember to call the matching * module saveToFlash() method, otherwise this call has no effect. * * @param newval : either YPowerSupply.POWEROUTPUTATSTARTUP_OFF or * YPowerSupply.POWEROUTPUTATSTARTUP_ON, according to the power supply output switch state at device start up * * @return YAPI.SUCCESS if the call succeeds. * * On failure, throws an exception or returns a negative error code. */ set_powerOutputAtStartUp(newval: YPowerSupply.POWEROUTPUTATSTARTUP): Promise; get_command(): Promise; set_command(newval: string): Promise; /** * Retrieves a regulated power supply for a given identifier. * The identifier can be specified using several formats: * * - FunctionLogicalName * - ModuleSerialNumber.FunctionIdentifier * - ModuleSerialNumber.FunctionLogicalName * - ModuleLogicalName.FunctionIdentifier * - ModuleLogicalName.FunctionLogicalName * * * This function does not require that the regulated power supply is online at the time * it is invoked. The returned object is nevertheless valid. * Use the method YPowerSupply.isOnline() to test if the regulated power supply is * indeed online at a given time. In case of ambiguity when looking for * a regulated power supply by logical name, no error is notified: the first instance * found is returned. The search is performed first by hardware name, * then by logical name. * * If a call to this object's is_online() method returns FALSE although * you are certain that the matching device is plugged, make sure that you did * call registerHub() at application initialization time. * * @param func : a string that uniquely characterizes the regulated power supply, for instance * MyDevice.powerSupply. * * @return a YPowerSupply object allowing you to drive the regulated power supply. */ static FindPowerSupply(func: string): YPowerSupply; /** * Retrieves a regulated power supply for a given identifier in a YAPI context. * The identifier can be specified using several formats: * * - FunctionLogicalName * - ModuleSerialNumber.FunctionIdentifier * - ModuleSerialNumber.FunctionLogicalName * - ModuleLogicalName.FunctionIdentifier * - ModuleLogicalName.FunctionLogicalName * * * This function does not require that the regulated power supply is online at the time * it is invoked. The returned object is nevertheless valid. * Use the method YPowerSupply.isOnline() to test if the regulated power supply is * indeed online at a given time. In case of ambiguity when looking for * a regulated power supply by logical name, no error is notified: the first instance * found is returned. The search is performed first by hardware name, * then by logical name. * * @param yctx : a YAPI context * @param func : a string that uniquely characterizes the regulated power supply, for instance * MyDevice.powerSupply. * * @return a YPowerSupply object allowing you to drive the regulated power supply. */ static FindPowerSupplyInContext(yctx: YAPIContext, func: string): YPowerSupply; /** * Registers the callback function that is invoked on every change of advertised value. * The callback is invoked only during the execution of ySleep or yHandleEvents. * This provides control over the time when the callback is triggered. For good responsiveness, remember to call * one of these two functions periodically. To unregister a callback, pass a null pointer as argument. * * @param callback : the callback function to call, or a null pointer. The callback function should take two * arguments: the function object of which the value has changed, and the character string describing * the new advertised value. * @noreturn */ registerValueCallback(callback: YPowerSupply.ValueCallback | null): Promise; _invokeValueCallback(value: string): Promise; /** * Performs a smooth transition of output voltage. Any explicit voltage * change cancels any ongoing transition process. * * @param V_target : new output voltage value at the end of the transition * (floating-point number, representing the end voltage in V) * @param ms_duration : total duration of the transition, in milliseconds * * @return YAPI.SUCCESS when the call succeeds. */ voltageMove(V_target: number, ms_duration: number): Promise; /** * Continues the enumeration of regulated power supplies started using yFirstPowerSupply(). * Caution: You can't make any assumption about the returned regulated power supplies order. * If you want to find a specific a regulated power supply, use PowerSupply.findPowerSupply() * and a hardwareID or a logical name. * * @return a pointer to a YPowerSupply object, corresponding to * a regulated power supply currently online, or a null pointer * if there are no more regulated power supplies to enumerate. */ nextPowerSupply(): YPowerSupply | null; /** * Starts the enumeration of regulated power supplies currently accessible. * Use the method YPowerSupply.nextPowerSupply() to iterate on * next regulated power supplies. * * @return a pointer to a YPowerSupply object, corresponding to * the first regulated power supply currently online, or a null pointer * if there are none. */ static FirstPowerSupply(): YPowerSupply | null; /** * Starts the enumeration of regulated power supplies currently accessible. * Use the method YPowerSupply.nextPowerSupply() to iterate on * next regulated power supplies. * * @param yctx : a YAPI context. * * @return a pointer to a YPowerSupply object, corresponding to * the first regulated power supply currently online, or a null pointer * if there are none. */ static FirstPowerSupplyInContext(yctx: YAPIContext): YPowerSupply | null; } export declare namespace YPowerSupply { const enum POWEROUTPUT { OFF = 0, ON = 1, INVALID = -1 } const enum POWEROUTPUTATSTARTUP { OFF = 0, ON = 1, INVALID = -1 } interface ValueCallback { (func: YPowerSupply, value: string): void; } }