Verbalise Talking Radio Controlled Clock Instructions
Total Page:16
File Type:pdf, Size:1020Kb
Load more
Recommended publications
-
BT-Based Landlines 2019-06-07
utilityoptions BT-based Landlines Call costs are in pence per minute (ppm) and base call costs are in pence (p), all excluding VAT. A connection call charge of 1p + base call cost, or an access charge (for 087, 084, 09 and 118 numbers) of 7ppm (included in the call costs quoted), applies. Calls are billed by the second, and are rounded to the nearest 0.1p. Destination Call cost Threshold Threshold Base call (ppm) From (sec) To (sec) cost (p) UK Local 1.4 UK National 1.4 UK National 1.4 1471 Call Return 0 19.16 Speaking Clock 0 65.9 Operator Services 0 130.34 Emergency Call 0 200 Non Emergency Number 0 32.34 Call Return 1.5 1571 Call Return 1.5 Vodafone 6.2 Orange 6.2 O2 6.2 T-Mobile 6.2 Hutchison 3G Mobile 6.2 Inquam Mobile 50.52 BT Mobile 50.52 UK Mobile fm10 41.76 12.22 VPN - Office 2 Office 0 Mobile fw1 34.54 12.22 Mobile fw2 32.74 12.22 Mobile fw3 25.02 Mobile fw4 35.32 12.22 NGN Freephone 0 NGN Local 0845 6.5 NGN National 0870 3.1 Mobile fw5 33 12.22 NGN Rate: i16 - Internet Services 11.02 NGN Rate: i15 - Internet Services 9.5 Page 1 of 38 Destination Call cost Threshold Threshold Base call (ppm) From (sec) To (sec) cost (p) NGN Rate: i17 - Calls To Internet Services 10.9 NGN Rate: ff10 - Calls To Paging Services 0 56.22 NGN Rate: ff3 - Calls To Paging Services 0 55.12 NGN Rate: ff5 - Calls To Paging Services 0 131.16 NGN Rate: ff8 - Calls To Paging Services 0 41.04 NGN Rate: ff9 - Calls To Paging Services 0 93.62 NGN Rate: G21 - Calls to 03 and 05 numbers 3.78 NGN Rate: ff1 - Calls To Premium Rate Services 0 50.92 NGN Rate: ff11 -
UA509: DCF77 Radio Clock DCF77 Radio Clock UA509 with 2 Serial Interfaces, Pulses Per Minute and Per Second, and a 2.5Mm LED Display
Meinberg Radio Clocks Auf der Landwehr 22 31812 Bad Pyrmont, Germany Phone: +49 (5281) 9309-0 Fax: +49 (5281) 9309-30 http://www.meinberg.de [email protected] UA509: DCF77 Radio Clock DCF77 Radio Clock UA509 with 2 serial interfaces, pulses per minute and per second, and a 2.5mm LED Display. Key Features - Direct conversion Quadrature Receiver - Pulses per second and per minute - 20mA input/output circuits - 2,5mm LED-display - 2 RS232 interfaces - Receiver status LEDs - Buffered hardware clock - Flash-EPROM with bootstrap loader rev 2006.0615.1425 Page 1/3 ua509 Description The hardware of UA509 is a 100mm x 160mm microprocessor board. The 20mm wide front panel contains an 8-digit LED display (2.5mm), three LED indicators and a time/date switch. The receiver is connected to the external ferrite antenna AI01 that is included in the sope of supply by the 5 meter 50 ohm coaxial cable (other lengths available). The radio controlled clock UA509 has been designed for applications where two independent serial interfaces are needed. The UA509 contains a flash EPROM with bootstrap loader that allows to upload a new firmware via the serial interface without removal of the clock. Characteristics Type of receiver Narrowband DCF77 quadrature receiver with automatic gain control, bandwidth: approx. 20Hz Display 8 digit 7-segment LED display (2.5mm) for time or date (switch-selectable) optional: 20HP (100mm) wide front panel with 10mm height 7-segment LED display Status info Modulation and field strength visualized by LEDs Free running state visualized by LED after switching to free running quartz clock mode Synchronization time 2-3 minutes after correct DCF77 signal reception Accuracy free run Accuracy of the quartz base after min. -
2201 24-Hour Room Temperature Controller REV13
s 2201 24-hour room temperature controller REV13.. Heating applications • Mains-independent, battery-operated room temperature controller featuring user-friendly operation, easy-to-read display and large numbers • Self-learning two-position controller with PID response (patented) • Operating mode selection: - Automatic mode with two heating phases - Automatic mode with one heating phase - Continuous comfort mode - Continuous energy saving mode - Frost protection • Automatic modes with time switch program • Heating zone control Use Room temperature control in: • Single-family and vacation homes. • Apartments and offices. • Individual rooms and professional office facilities. • Commercially used spaces. Control for the following equipment: • Magnetic valves of an instantaneous water heater. • Magnetic valves of an atmospheric gas burner. • Forced draught gas and oil burners. • Electrothermal actuators. • Circulating pumps in heating systems. • Electric direct heating. • Fans of electric storage heaters. • Zone valves (normally open and normally closed). CE1N2201en 24.04.2008 Building Technologies Function • PID control with self-learning or selectable switching cycle time • 2-point control • 24-hour time switch • Remote control • Preselected 24-hour operating modes • Override function • Party mode • Frost protection mode • Information level to check settings • Reset function • Sensor calibration • Minimum limitation of setpoint • Synchronization to radio time signal from Frankfurt, Germany (REV13DC) Type summary 24-hour room temperature controller REV13 24-hour room temperature controller with receiver for time signal from Frankfurt, Germany (DCF77) REV13DC Ordering Please indicate the type number as per the "Type summary" when ordering. Delivery The controller is supplied with batteries. Mechanical design Plastic casing with an easy-to-read display and large numbers, easily accessible operating elements, and removable base. -
Clock Synchronization Clock Synchronization Part 2, Chapter 5
Clock Synchronization Clock Synchronization Part 2, Chapter 5 Roger Wattenhofer ETH Zurich – Distributed Computing – www.disco.ethz.ch 5/1 5/2 Overview TexPoint fonts used in EMF. Motivation Read the TexPoint manual before you delete this box.: AAAA A • Logical Time (“happened-before”) • Motivation • Determine the order of events in a distributed system • Real World Clock Sources, Hardware and Applications • Synchronize resources • Clock Synchronization in Distributed Systems • Theory of Clock Synchronization • Physical Time • Protocol: PulseSync • Timestamp events (email, sensor data, file access times etc.) • Synchronize audio and video streams • Measure signal propagation delays (Localization) • Wireless (TDMA, duty cycling) • Digital control systems (ESP, airplane autopilot etc.) 5/3 5/4 Properties of Clock Synchronization Algorithms World Time (UTC) • External vs. internal synchronization • Atomic Clock – External sync: Nodes synchronize with an external clock source (UTC) – UTC: Coordinated Universal Time – Internal sync: Nodes synchronize to a common time – SI definition 1s := 9192631770 oscillation cycles of the caesium-133 atom – to a leader, to an averaged time, ... – Clocks excite these atoms to oscillate and count the cycles – Almost no drift (about 1s in 10 Million years) • One-shot vs. continuous synchronization – Getting smaller and more energy efficient! – Periodic synchronization required to compensate clock drift • Online vs. offline time information – Offline: Can reconstruct time of an event when needed • Global vs. -
2203 Weekday / Weekend Room Temperature Controller REV17
s 2203 Weekday / weekend room temperature controller REV17.. Heating applications • Mains-independent, battery-operated room temperature controller featuring user-friendly operation, easy-to-read display and large numbers • Self-learning two-position controller with PID response (patented) • Operating mode selection: - 7-day (weekday / weekend) automatic mode. with max. 3 heating phases - Continuous comfort mode - Continuous energy saving mode - Frost protection - Exception day (24 hour operation) with max. 3 heating phases • A separate temperature setpoint can be entered in automatic mode and for the exception day for each heating phase • To control a heating zone Use Room temperature control in: • Single-family and vacation homes • Apartments and offices • Individual rooms and professional office facilities • Commercially used spaces Control for the following equipment: • Magnetic valves of an instantaneous water heater • Magnetic valves of an atmospheric gas burner • Forced draught gas and oil burners • Electrothermal actuators • Circulating pumps in heating systems • Electric direct heating • Fans of electric storage heaters • Zone valves (normally open or normally closed) CE1N2203en 24.04.2008 Building Technologies Function • PID control with self-learning or selectable switching cycle time • 2-point control • 7-day time switch • Remote control • Preselected 24-hour operating modes • Override function • Holiday mode • Party mode • Frost protection mode • Information level to check settings • Reset function • Sensor calibration • Minimum limitation of setpoint • Periodic pump run Protection against valve seizure • Synchronization to radio time signal from Frankfurt, Germany (REV17DC) Type summary Room temperature controller with 7-day (weekday/weekend) time switch REV17 Room temperature controller with 7-day (weekday/weekend) time switch and receiver for time signal from Frankfurt, Germany (DCF77) REV17DC Ordering Please indicate the type number as per the "Type summary" when ordering. -
DLC32 / DATAREG 32C Data Logger
DLC32 / DATAREG 32C Data logger User Manual Doc.-No: E122211209022 Baer Industrie-Elektronik GmbH Rathsbergstr. 23 D-90411 Nürnberg Phone: +49 (0)911 970590 Fax: +49 (0)911 9705950 Internet: www.baer-gmbh.com COPYRIGHT Copyright © 2009 BÄR Industrie-Elektronik GmbH All rights, including those originating from translation, (re)-printing and copying of this document or parts thereof are reserved. No part of this manual may be copied or distributed by electronic, mechanic, photographic or indeed any other means without prior written consent of BÄR Industrie-Elektronik GmbH. All names of products or companies contained in this document may be trademarks or trade names of their respective owners. Note Based on its policies, BÄR Industrie-Elektronik GmbH develops and improves their products on an ongoing basis. In consequence, BÄR Industrie-Elektronik GmbH preserve the right to modify and improve the software product described in this document. Specifications and other information contained in this document can change without prior notice. This document does not cover all functions in all possible detail or variations that may be encountered during installation, maintenance and usage of the software. Under no circumstances whatsoever will BÄR Industrie-Elektronik GmbH accept any liability for mistakes in this document or for any sub sequential damage arising from installation or usage of the software. BÄR Industrie-Elektronik GmbH preserves the right to modify or withdraw this document at any time without prior announcement. BÄR Industrie-Elektronik GmbH does not accept any responsibility or liability for the installation, usage, maintenance or support of third party products. Printed in Germany Table of Contents 1 General Information............................................................................................. -
LSI for Radio Clocks
LSI for Radio Clocks Takayuki Kondo Katsuya Maruyama Tsunao Oike Radio clocks sustain accurate time at all times, as The broadcasting of time information is conducted in they are equipped with functions for receiving low Japan by the National Institute of Information and frequency signals (the standard-time and frequency- Communications Technology, an incorprated signal emission) that carry time information and administrative agency, with the standard frequency automatically correct time and calendars. Products fitted transmitting offices established at two locations including with a radio clock function are on the increase, since the Ohtakado-yama standard frequency station in Fukushima broadcast range of the standard frequency was extended Prefecture (1997) and Hagane-yama standard frequency to cover all Japan in 2001, which resulted in radio clocks station in Saga Prefecture (2001). Each transmitting getting into the limelight. station covers a radius of 1,200km and the two Conventional radio clocks were used as ordinary transmitting stations combined cover almost the entire clocks (table clocks, watches, wall clocks, etc.) but with area of Japan (Figure 2). Further, mutual interference is the recent improvement of LSIs for radio receiver and avoided with different frequencies assigned, 40KHz from antennas combined with a reduction in power Ohtakado-yama station (Fukushima-Pref.) and 60KHz consumption, raised sensitivity and miniaturization, from Hagane-yama station (Saga-Pref.). application of the device in various products is anticipated, such as consumer appliances, mobile devices and home electric appliances. This paper will provide a general summary of the “ML6191”, a real-time clock LSI with an automatic time correction function that is a combination of the RF for the Approx. -
Computer Time Synchronization Computer Time Synchronization
Computer Time Synchronization Computer Time Synchronization Michael Lombardi Time and Frequency Division National Institute of Standards and Technology The personal computer revolution that began in the 1970's created a huge new group of time and frequency users, those people who need to keep computer clocks on time. As you probably know, computer clocks aren't particularly good at keeping time. Simple clocks like your wristwatch and most of the clocks in your home usually keep better time than a computer clock. The poor performance of a computer clock can cause problems, since many computer applications require time kept to the nearest second or better. For example, the computers in a financial institution must keep very accurate records of when transactions were completed, for legal or other reasons. Computer systems that make physical measurements and acquire scientific data need to know precisely when the measurements were made. Software used on a manufacturing floor may need to turn a piece of equipment on or off at a specified time. Also, any system involved with synchronous communications must keep accurate time. For example, radio and TV stations may need computers that can switch feeds or link up with remotes at the right time. This paper describes several methods to keep accurate time by computer. Before looking at these methods, let's look at how a PC-compatible computer keeps time. Section 1.1 - How a Personal Computer keeps time Since the introduction of the IBM-AT personal computer in 1984, all PC-compatible computers have kept time the same way. Each PC contains two clocks, regardless of whether it uses the 286, 386, 486, or Pentium microprocessor (or a derivative). -
SR500 GPS Master Clock
SR500 GPS master clock The SR500 can be used on places where alternating current is available. The small GPS receiver is equipped with five meter cable. The offsets can be set easily with switches. The display is readable in the dark. GPS satellites all transmit the same time and date. The time is corresponding with UTC and GMT (Coordinated Universal Time and Greenwich Mean Time). The winter time in Great Britain is corresponding with this time. For having the same time with regard to light and dark the earth has been divided in 24 time sectors. For the local time and date each sector has its own offset in regarding to UTC/GMT. For example New York -5h, Central Australia +9½h and Rotterdam +1h. The offset is set by the rotating switch, indicating 0 up to F. Add or subtract with the set value via dipswitch nr. 1 of UTC: -/+. Half an hour+ can be added. For practical reasons sometimes the offset of the adjacent sector is copied. For Europe, the USA and Australia the DST (Daylight Saving Time) for the next fifty years has been programmed in tables which can be set with switches 1 and 2 of switch DST. The time to add during the summer time can be set on 0h (no DST), 0.5h, 1h and 1.5h. Features: Input voltage: 100 -240V, 50/60Hz. Housing: polycarbonate, dimensions 130x130x50mm, transparent cover. Clock line: available in 24VDC/400mA or 12VDC/400mA. Impulses: every minute or every 30 seconds, bipolar. Impulse length: 0.6 or 2 seconds. -
2004 Cadillac CTS Entertainment and Navigation System M
2004 Cadillac CTS Entertainment and Navigation System M Overview ........................................................ 1-1 Navigation Audio System ................................ 3-1 Overview .................................................. 1-2 Navigation Audio System ............................ 3-2 Features and Controls ..................................... 2-1 Voice Recognition ........................................... 4-1 Features and Controls ................................ 2-2 Voice Recognition ...................................... 4-2 Index ................................................................ 1 GENERAL MOTORS, GM and the GM Emblem, Please keep this manual with the owner manual in your CADILLAC and the CADILLAC Crest & Wreath are vehicle, so it will be there if you ever need it while registered trademarks and the name CTS is a trademark you are on the road. If you sell your vehicle, leave this of General Motors Corporation. Birdview™ is a manual and the owner manual with the vehicle. trademark of Xanavi Informatics Corporation. The information in this manual supplements the owner manual. This manual includes the latest information available at the time it was printed. We reserve the right to make changes in the product after that time without notice. Litho in U.S.A. ©Copyright General Motors Corporation 06/04/03 Part No. 25758902 A First Edition All Rights Reserved ii Section 1 Overview Overview .........................................................1-2 Setup Menu .................................................1-14 -
Report ITU-R SM.2451-0 (06/2019)
Report ITU-R SM.2451-0 (06/2019) Assessment of impact of wireless power transmission for electric vehicle charging on radiocommunication services SM Series Spectrum management ii Rep. ITU-R SM.2451-0 Foreword The role of the Radiocommunication Sector is to ensure the rational, equitable, efficient and economical use of the radio- frequency spectrum by all radiocommunication services, including satellite services, and carry out studies without limit of frequency range on the basis of which Recommendations are adopted. The regulatory and policy functions of the Radiocommunication Sector are performed by World and Regional Radiocommunication Conferences and Radiocommunication Assemblies supported by Study Groups. Policy on Intellectual Property Right (IPR) ITU-R policy on IPR is described in the Common Patent Policy for ITU-T/ITU-R/ISO/IEC referenced in Resolution ITU- R 1. Forms to be used for the submission of patent statements and licensing declarations by patent holders are available from http://www.itu.int/ITU-R/go/patents/en where the Guidelines for Implementation of the Common Patent Policy for ITU-T/ITU-R/ISO/IEC and the ITU-R patent information database can also be found. Series of ITU-R Reports (Also available online at http://www.itu.int/publ/R-REP/en) Series Title BO Satellite delivery BR Recording for production, archival and play-out; film for television BS Broadcasting service (sound) BT Broadcasting service (television) F Fixed service M Mobile, radiodetermination, amateur and related satellite services P Radiowave propagation RA Radio astronomy RS Remote sensing systems S Fixed-satellite service SA Space applications and meteorology SF Frequency sharing and coordination between fixed-satellite and fixed service systems SM Spectrum management Note: This ITU-R Report was approved in English by the Study Group under the procedure detailed in Resolution ITU-R 1. -
Call Charges Price List 01.01.18
Base Call Cost Call Rate Description £ £ p/min Local Geographic 0.03 0.011 Regional Geographic 0.03 0.011 National Geographic 0.03 0.011 Speaking Clock 0.533 0.021 Operator Services 3.522 Non Emergency Number 0.15 0.00 Reverse Charge Call 0.50 Call Return 0.106 0.00 NGN Access Charge 0.10 Reverse Charge Call - Mobile 0.50 Vodafone 0.09 0.0995 Orange 0.09 0.0995 O2 0.09 0.0995 T-Mobile 0.09 0.0995 Dolphin 0.09 0.2268 Hutchison 3G Mobile 0.09 0.25 Inquam Mobile 0.09 0.227 BT Mobile 0.09 0.227 Channel Islands 0.03 0.013 Afghanistan 0.05 0.5511 Afghanistan Capital 0.05 0.5511 Afghanistan City 0.05 0.5511 Afghanistan Mobile 0.09 0.5511 Afghanistan Premium 0.05 0.5511 Albania 0.05 0.2068 Albania Tirana 0.05 0.2068 Albania City 0.05 0.2068 Albania Mobile 0.09 0.2512 Albania Premium 0.05 0.2068 Algeria 0.05 0.2068 Algeria Algiers 0.05 0.2068 Algeria City 0.05 0.2068 Algeria Mobile 0.09 0.2217 Algeria Premium 0.05 0.2068 Andorra 0.05 0.1034 Andorra Capital 0.05 0.1034 Andorra City 0.05 0.1034 Andorra Mobile 0.09 0.2807 Andorra Premium 0.05 0.1034 Angola 0.05 0.3693 Angola Capital 0.05 0.3693 Angola City 0.05 0.3693 Angola Mobile 0.09 0.3693 Angola Premium 0.05 0.3693 Anguilla 0.05 0.2951 Anguilla Capital 0.05 0.2951 Anguilla City 0.05 0.2951 Anguilla Mobile 0.05 0.2951 Anguilla Premium 0.05 0.2951 Last Updated: 01.01.18 Antarctica (Aus) 0.05 0.7164 Antarctica (Aus) Capital 0.05 0.7164 Antarctica (Aus) City 0.05 0.7164 Antarctica (Aus) Mobile 0.05 0.7164 Antarctica (Aus) Premium 0.05 0.7164 Antigua & Barbuda 0.05 0.2659 Antigua & Barbuda Capital