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| sames SAN3020 APPLICATION NOTE SINGLE CHIP TELEPHONE POWER EXTRACTION FOR EXTERNAL LOADS 1 Scope This application note describes a simple add-on circuit for extracting current to supply external loads. It also includes hardware description ,schematic and Vout/Iout curves. 2 Key Features * * * Only few additional low-cost components necessary Can drive line currents up to ILine-5mA (=15mA for 20mA line current) No influence in AC impedance or DC mask even when load is short circuited Table of Contents 1 SCOPE.............................................................................................................................................................................................................1 2 KEY FEATURES ..............................................................................................................................................................................................1 3 OTHER APPLICABLE DOCUMENTS AND PAPERS ......................................................................................................................................1 4 REVISION STATUS .........................................................................................................................................................................................1 5 GENERAL DESCRIPTION ...............................................................................................................................................................................1 6 HARDWARE CONFIGURATION ......................................................................................................................................................................2 7 CIRCUIT DESCRIPTION ..................................................................................................................................................................................2 8 CONNECTING LOADS AT VDD ........................................................................................................................................................................2 9 APPLICATION SCHEMATIC............................................................................................................................................................................3 10 LIABILITY AND COPYRIGHT STATEMENT ..................................................................................................................................................4 3 Other applicable documents and papers 1. Data Sheet SA2531, SA2532 2. Pin-out comparison SA2531/2 4 Revision status SAN3020 Application Note (this document) AN3020 Schematic Rev. B00 5 General description Note: all further component references apply to the schematic shown in pt.9 of this application note ! SAN3020 PDS038-SA2531/2-002 Rev. B 21-03-00 SAN3020 When driving external loads by extracting power from the available line current, care must be taken not to affect both DC and AC impedance. The extracted voltage should be independent from line current (assuming a line current >20mA). The application shown will shut off the external load when going on-hook and power-up the load when going offhook. The current driving capability depends on the available line current, higher line currents allow higher driving currents. At minimum line current (20mA), the maximum load current is 15mA (see pt.6 for further details). 6 Hardware configuration Only 4 external components , shown in the dotted area (1 general purpose PNP transistor:Bmin=250, 1 general purpose diode , 1 resistor and 1 pol. capacitor) must be added to the standard SA253x application to get a high efficiency power extraction for external loads with the features described in pt.5 above. When updating an existing circuit, the connection from pin #25 (= CS, SA253x) to the shunt transistor's base (in most applications = Q3) must be opened and a diode (D5) installed. All further components are simply added to the circuit. 7 Circuit description The shunt transistor (Q3) is regulating the voltage at LI ( #27) to 4.5V. Consequently, the voltage at CS ( #25) is VLI - VBE. When adding D5, the voltage drop between LI and CS is Vconst = 2x VBE. This constant voltage provides the base current of the power extraction transistor Q5 via R22. The maximum load current also depends on the gain (B= IC / IB) of the transistor used. The transistor used should have a B of 250 . Transistors with lower gain may also be used, but the maximum load current may be lower. 7.1 Minimum output voltage with high signals on line: As shown in the diagram (pt. 9), the output voltage at high load currents will drop with high transmit or receive signals on line, since the load is not supplied during the negative half-wave of the line signal. The diagram shows the Vout/ILoad curves with no AC signal at line and with a constant AC line signal of 1Vpeak. In practical use, an AC signal of 2Vpp is not present continuously, so the effective output voltage will be higher. It is also possible to buffer the voltage drop during line signal bursts by increasing the value of capacitor C19. However, the voltage decrease with high signal bursts on line should be taken into consideration when the load voltage must not drop below a certain value. 8 Connecting loads at VDD Small loads can also be connected at VDD directly, as long as the following rules are observed: 1. When on-hook, the load must only draw <1A , because it is connected in parallel to the VDD -cap, which maintains memory data retention in on-hook state, charged by a 5M resistor . A higher load current would discharge this capacitor and erase the memory contents. 2. The load will also be supplied in ringing mode. 3. When off-hook, the load current can be <5mA, provided it does not exceed this current at any time. 2/4 sames SAN3020 9 Application schematic 3/4 sames SAN3020 10 Liability and Copyright Statement Disclaimer: The information contained in this document is confidential and proprietary to South African Micro-Electronic Systems (Pty) Ltd ("SAMES") and may not be copied or disclosed to a third party, in whole or in part, without the express written consent of SAMES. The information contained herein is current as of the date of publication; however, delivery of this document shall not under any circumstances create any implication that the information contained herein is correct as of any time subsequent to such date. SAMES does not undertake to inform any recipient of this document of any changes in the information contained herein, and SAMES expressly reserves the right to make changes in such information, without notification,even if such changes would render information contained herein inaccurate or incomplete. SAMES makes no representation or warranty that any circuit designed by reference to the information contained herein, will function without errors and as intended by the designer. South African Micro-Electronic Systems (Pty) Ltd P O Box 15888, Lynn East, 0039 Republic of South Africa, 33 Eland Street, Koedoespoort Industrial Area, Pretoria, Republic of South Africa Tel: Fax: 012 333-6021 012 333-3158 Tel: Fax: Int +27 12 333-6021 Int +27 12 333-3158 Web Site : http://www.sames.co.za 4/4 sames |
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