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| L4902A DUAL 5V REGULATOR WITH RESET AND DISABLE . . . . . . . . . . . . . PRELIMINARY DATA DOUBLE BATTERY OPERATING OUTPUT CURRENTS : I01 = 300 mA I02 = 300 mA FIXED PRECISION OUTPUT VOLTAGE 5V 2% RESET FUNCTION CONTROLLED BY INPUT VOLTAGE AND OUTPUT 1 VOLTAGE RESET FUNCTION EXTERNALLY PROGRAMMABLE TIMING RESET OUTPUT LEVEL RELATED TO OUTPUT 2 OUTPUT 2 INTERNALLY SWITCHED WITH ACTIVE DISCHARGING OUTPUT 2 DISABLE LOGICAL INPUT LOW LEAKAGE CURRENT, LESS THAN 1A AT OUTPUT 1 RESET OUTPUT NORMALLY HIGH INPUT OVERVOLTAGE PROTECTION UP TO 60V OUTPUT TRANSISTORS SOA PROTECTION SHORT CIRCUIT AND THERMAL OVERLOAD PROTECTION HEPTAWATT (Vertical) ORDERING NUMBER : L4902A DESCRIPTION The L4902A is a monolithic low drop dual 5V regulator designed mainly for supplying microprocessor systems. Reset and data save functions and remote switch on/off control can be realized. PIN CONNECTION July1993 1/9 L4902A PIN FUNCTIONS N 1 2 3 4 5 Name Input 1 Timing Capacitor Disable Input GND Reset Output Function Regulators Common Input If Reg. 2 is switched-ON the delay capacitor is charged with a 5A constant current. When Reg. 2 is switched-OFF the delay capacitor is discharged. A high level (> VDT) disable output Reg. 2. Common Ground When pin 2 reaches 5V the reset output is switched high. 5V ) ; tRD (ms) = Ct (nF) Therefore tRD = Ct ( 10A 5V - 300mA Regulator Output. Enabled if Vo 1 > VRT. DISABLE INPUT < VDT and VIN > VIT. If Reg. 2 is switched-OFF the C 02 capacitor is discharged. 5V - 300mA. Low leakage (in switch-OFF condition) output 6 7 Output 2 Output 1 BLOCK DIAGRAM SCHEMATIC DIAGRAM 2/9 L4902A ABSOLUTE MAXIMUM RATINGS Symbol VIN Io Tstg, Tj Parameter DC Input Voltage Transient Input Overvoltage (t = 40ms) Output Current Storage and Junction Temperature Value 28 60 Internally Limited - 40 to 150 C Unit V V THERMAL DATA Symbol R th j-case Parameter Thermal Resistance Junction-case Max Value 4 Unit C/W ELECTRICAL CHARACTERISTICS (VIN = 14.4V, Tamb = 25oC unless otherwise specified)) Symbol Vi V01 V02 H V02 L I01 IL01 I02 Vi01 Parameter DC Operating Input Voltage Output Voltage 1 Output Voltage 2 HIGH Output Voltage 2 LOW Output Current 1 max. Leakage Output 1 Current Output Current 2 max. Output 1 Dropout Voltage (*) Test Conditions R Load 1k R Load 1k I02 = - 5mA V01 = - 100mV VIN = 0, V01 3V V02 = - 100mV I01 = 10mA I01 = 100mA I01 = 300mA Min. 4.95 V01 -0.1 300 1 300 0.7 0.8 1.1 6.4 250 5 5 40 50 4.5 2.7 1.6 4.9 50 4.12 0.25 5 1.25 - 150 - 30 0.3 - 0.8 0.3 - 0.8 50 50 84 80 150 0.8 1 1.4 V01 + 1.7 50 50 80 80 6.5 4.5 3.5 V02 - 0.05 80 V02 0.4 11 20 2.4 Typ. 5.05 5 0.1 Max. 24 5.15 V01 Unit V V V V mA A mA V V V V mV mV mV mV mV mA VIT ViTH V01 V02 V01 V02 IQ Input Threshold Voltage Input Threshold Voltage Hyst. Line Regulation 1 Line Regulation 2 Load Regulation 1 Load Regulation 2 Quiescent Current V01 + 1.2 7V < VIN < 24V, I01 = 5mA 7V < VIN < 24V, I02 = 5mA 5mA < I01 < 300mA 5mA < I02 < 300mA I01 = I02 5mA 0 < VIN < 13V 7V < VIN < 13V V02 LOW 7V < VIN < 13V V02 HIGH V02 - 0.15 30 V02 - 1 3 VRT VRTH VRH VRL tRD td VDT ID V01 T V02 T SVR1 SVR2 TJSD Reset Threshold Voltage Reset Threshold Hysteresis Reset Output Voltage HIGH Reset Output Voltage LOW Reset Pulse Delay Timing Capacitor Discharge Time V02 Disable Threshold Voltage V02 Disable Input Current Thermal Drift Thermal Drift Supply Voltage Rejection Supply Voltage Rejection Thermal Shut Down IR = 500A IR = - 1mA Ct = 10nF Ct = 10nF VD 0.4V VD 2.4V - 20C Tamb 125C - 20C Tamb 125C f = 100Hz VR = 0.5V Io = 100mA V mV V V ms s V A A mV/C mV/C dB dB C * The dropout voltage is defined as the difference between the input and the output voltage when the output voltage is lowered of 25 mV under constant output current condition. 3/9 L4902A TEST CIRCUIT APPLICATION INFORMATION In power supplies for P systems it is necessary to provide power continuously to avoid loss of information in memories and in time of day clocks, or to savedata when the primary supply is removed. The L4902A makes it very easy to supply such equipments ; it provides two voltage regulators (both 5V high precision) with common inputs plus a reset output for the data save function and a Reg. 2 disable input. CIRCUIT OPERATION (see Figure 1) After switch on Reg. 1 saturates until V01 rises to the nominal value. When the input reaches VIT and the output 1 is higher than VRT the output 2 (V02) switches on and the reset output (VR ) also goes high after a proFigure 1 grammable time TRD (timing capacitor). V02 and VR are switched togetherat low level when one of the following conditions occurs : - a high level ( VDT) is applied on pin 3 ; - an input overvoltage ; - an overload on the output 1 (V01 VRT) ; - a switch off (VIN VIT - VITH) ; and they start again as before when the condition is removed. An overload on output 2 does not switch Reg. 2, and does not influence Reg. 1. The V01 output features : - 5V internal reference without voltage divider between the output and the error comparator - very low drop series regulator element utilizing current mirrors permit high output impedance and then very low leakage current even in power down condition. 4/9 L4902A This output may therefore be used to supply circuits continuously, such as volatile RAMs, allowing the use of a back-up battery. The V02 output can supply other non essential 5 V circuits which may be powered down when the system is inactive, or that must be powered down to prevent uncorrect operation for supply voltages below the minimum value. The reset output can be used as a "POWER DOWN INTERRUPT", permitting RAM access only in correct power conditions, or as a "BACK-UP ENABLE" to transfer data into in a NV SHADOW MEMORY Figure 2 when the supply is interrupted. The disable function can be used for remote on/off control of circuits connected to the V02 output. APPLICATION SUGGESTIONS Figure 2 illustrate how the L4902A's disable input may be used in a CMOS Computer application. The V01 regulator(low consumption) supply permanently a CMOS time of day clock and a CMOS computer chip with volatile memory. V02 output, supplying non-essential circuits, is turned OFF under control of a P unit. Figure 3 : P.C. Board Component Layout of Figure 2 5/9 L4902A Configurations of this type are used in products where the OFF switch is part of a keyboard scanned by a micro which operates continuously even in the OFF state. Another application for the L4902A is supplying a shadow-ram microcomputer chip (SGS M38SH72 for example) where a fast NV memory is backed up on chip by a EEPROM when a low level on the reset output occurs. By adding two CMOS-SCHMIDT-TRIGGER and few external components, also a watch dog funcFigure 4 tion may be realized (see Figure 5). During normal operation the microsystem supplies a periodical pulse waveform ; if an anomalous condition occours (in the program or in the system), the pulses will be absent and the disable input will be activated after a settling time determined by R1 C1. In this condition all the circuitry connected to V02 will be disabled, the system will be restarted with a new reset front. The disable of V02 prevent spurious operation during microprocessor malfunctioning. Figure 5 6/9 L4902A Figure 6 : Quiescent Current versus Output ICurrent Figure 7 : Quiescent Current versus Input Voltage Figure 8 : Supply Voltage Rejection Regulators 1 and 2 versus Input Ripple Frequence 7/9 L4902A HEPTAVATT PACKAGE MECHANICAL DATA DIM. A C D D1 E F F1 G G1 G2 H2 H3 L L1 L2 L3 L5 L6 L7 M M1 Dia MIN. mm TYP. MAX. 4.8 1.37 2.8 1.35 0.55 0.8 0.9 2.67 5.21 7.8 10.4 10.4 MIN. inch TYP. MAX. 0.189 0.054 0.110 0.053 0.022 0.031 0.035 0.105 0.205 0.307 0.409 0.409 2.4 1.2 0.35 0.6 2.41 4.91 7.49 10.05 16.97 14.92 21.54 22.62 2.6 15.1 6 2.8 5.08 3.65 2.54 5.08 7.62 0.094 0.047 0.014 0.024 0.095 0.193 0.295 0.396 0.668 0.587 0.848 0.891 0.100 0.200 0.300 3 15.8 6.6 0.102 0.594 0.236 0.110 0.200 0.118 0.622 0.260 3.85 0.144 0.152 8/9 L4902A Information furnished is believed to be accurate and reliable. However, SGS-THOMSON Microelectronics assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of SGS-THOMSON Microelectronics. Specifications mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information previously supplied. SGS-THOMSON Microelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of SGS-THOMSON Microelectronics. (c) 1994 SGS-THOMSON Microelectronics - All Rights Reserved SGS-THOMSON Microelectronics GROUP OF COMPANIES Australia - Brazil - France - Germany - Hong Kong - Italy - Japan - Korea - Malaysia - Malta - Morocco - The Netherlands - Singapore - Spain - Sweden - Switzerland - Taiwan - Thaliand - United Kingdom - U.S.A. 9/9 |
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