/* *********************************************************** * This file was automatically generated on 2016-02-10. * * * * JavaScript Bindings Version 2.0.8 * * * * If you have a bugfix for this file and want to commit it, * * please fix the bug in the generator. You can find a link * * to the generators git repository on tinkerforge.com * *************************************************************/ var Device = require('./Device'); BrickletRealTimeClock.DEVICE_IDENTIFIER = 268; BrickletRealTimeClock.DEVICE_DISPLAY_NAME = 'Real-Time Clock Bricklet'; BrickletRealTimeClock.FUNCTION_SET_DATE_TIME = 1; BrickletRealTimeClock.FUNCTION_GET_DATE_TIME = 2; BrickletRealTimeClock.FUNCTION_GET_TIMESTAMP = 3; BrickletRealTimeClock.FUNCTION_SET_OFFSET = 4; BrickletRealTimeClock.FUNCTION_GET_OFFSET = 5; BrickletRealTimeClock.FUNCTION_GET_IDENTITY = 255; BrickletRealTimeClock.WEEKDAY_MONDAY = 1; BrickletRealTimeClock.WEEKDAY_TUESDAY = 2; BrickletRealTimeClock.WEEKDAY_WEDNESDAY = 3; BrickletRealTimeClock.WEEKDAY_THURSDAY = 4; BrickletRealTimeClock.WEEKDAY_FRIDAY = 5; BrickletRealTimeClock.WEEKDAY_SATURDAY = 6; BrickletRealTimeClock.WEEKDAY_SUNDAY = 7; function BrickletRealTimeClock(uid, ipcon) { //Battery-backed real-time clock /* Creates an object with the unique device ID *uid* and adds it to the IP Connection *ipcon*. */ Device.call(this, this, uid, ipcon); BrickletRealTimeClock.prototype = Object.create(Device); this.responseExpected = {}; this.callbackFormats = {}; this.APIVersion = [2, 0, 0]; this.responseExpected[BrickletRealTimeClock.FUNCTION_SET_DATE_TIME] = Device.RESPONSE_EXPECTED_FALSE; this.responseExpected[BrickletRealTimeClock.FUNCTION_GET_DATE_TIME] = Device.RESPONSE_EXPECTED_ALWAYS_TRUE; this.responseExpected[BrickletRealTimeClock.FUNCTION_GET_TIMESTAMP] = Device.RESPONSE_EXPECTED_ALWAYS_TRUE; this.responseExpected[BrickletRealTimeClock.FUNCTION_SET_OFFSET] = Device.RESPONSE_EXPECTED_FALSE; this.responseExpected[BrickletRealTimeClock.FUNCTION_GET_OFFSET] = Device.RESPONSE_EXPECTED_ALWAYS_TRUE; this.responseExpected[BrickletRealTimeClock.FUNCTION_GET_IDENTITY] = Device.RESPONSE_EXPECTED_ALWAYS_TRUE; this.setDateTime = function(year, month, day, hour, minute, second, centisecond, weekday, returnCallback, errorCallback) { /* Sets the current date (including weekday) and the current time with hundredths of a second resolution. Possible value ranges: * Year: 2000 to 2099 * Month: 1 to 12 (January to December) * Day: 1 to 31 * Hour: 0 to 23 * Minute: 0 to 59 * Second: 0 to 59 * Centisecond: 0 to 99 * Weekday: 1 to 7 (Monday to Sunday) If the backup battery is installed then the real-time clock keeps date and time even if the Bricklet is not powered by a Brick. The real-time clock handles leap year and inserts the 29th of February accordingly. But leap seconds, time zones and daylight saving time are not handled. */ this.ipcon.sendRequest(this, BrickletRealTimeClock.FUNCTION_SET_DATE_TIME, [year, month, day, hour, minute, second, centisecond, weekday], 'H B B B B B B B', '', returnCallback, errorCallback); }; this.getDateTime = function(returnCallback, errorCallback) { /* Returns the current date (including weekday) and the current time of the real-time clock with hundredths of a second resolution. */ this.ipcon.sendRequest(this, BrickletRealTimeClock.FUNCTION_GET_DATE_TIME, [], '', 'H B B B B B B B', returnCallback, errorCallback); }; this.getTimestamp = function(returnCallback, errorCallback) { /* Returns the current date and the time of the real-time clock converted to milliseconds. The timestamp has an effective resolution of hundredths of a second. */ this.ipcon.sendRequest(this, BrickletRealTimeClock.FUNCTION_GET_TIMESTAMP, [], '', 'q', returnCallback, errorCallback); }; this.setOffset = function(offset, returnCallback, errorCallback) { /* Sets the offset the real-time clock should compensate for in 2.17 ppm steps between -277.76 ppm (-128) and +275.59 ppm (127). The real-time clock time can deviate from the actual time due to the frequency deviation of its 32.768 kHz crystal. Even without compensation (factory default) the resulting time deviation should be at most ±20 ppm (±52.6 seconds per month). This deviation can be calculated by comparing the same duration measured by the real-time clock (``rtc_duration``) an accurate reference clock (``ref_duration``). For best results the configured offset should be set to 0 ppm first and then a duration of at least 6 hours should be measured. The new offset (``new_offset``) can be calculated from the currently configured offset (``current_offset``) and the measured durations as follow:: new_offset = current_offset - round(1000000 * (rtc_duration - ref_duration) / rtc_duration / 2.17) If you want to calculate the offset, then we recommend using the calibration dialog in Brick Viewer, instead of doing it manually. The offset is saved in the EEPROM of the Bricklet and only needs to be configured once. */ this.ipcon.sendRequest(this, BrickletRealTimeClock.FUNCTION_SET_OFFSET, [offset], 'b', '', returnCallback, errorCallback); }; this.getOffset = function(returnCallback, errorCallback) { /* Returns the offset as set by :func:`SetOffset`. */ this.ipcon.sendRequest(this, BrickletRealTimeClock.FUNCTION_GET_OFFSET, [], '', 'b', returnCallback, errorCallback); }; this.getIdentity = function(returnCallback, errorCallback) { /* Returns the UID, the UID where the Bricklet is connected to, the position, the hardware and firmware version as well as the device identifier. The position can be 'a', 'b', 'c' or 'd'. The device identifier numbers can be found :ref:`here `. |device_identifier_constant| */ this.ipcon.sendRequest(this, BrickletRealTimeClock.FUNCTION_GET_IDENTITY, [], '', 's8 s8 c B3 B3 H', returnCallback, errorCallback); }; } module.exports = BrickletRealTimeClock;