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L200C Dataheets PDF



Part Number L200C
Manufacturers STMicroelectronics
Logo STMicroelectronics
Description ADJUSTABLE VOLTAGE AND CURRENT REGULATOR
Datasheet L200C DatasheetL200C Datasheet (PDF)

® L200 ADJUSTABLE VOLTAGE AND CURRENT REGULATOR ADJUSTABLE OUTPUT CURRENT UP TO 2 A (GUARANTEED UP TO Tj = 150 °C) ADJUSTABLE OUTPUT VOLTAGE DOWN TO 2.85 V INPUT OVERVOLTAGE PROTECTION (UP TO 60 V, 10 ms) SHORT CIRCUIT PROTECTION OUTPUT TRANSISTOR S.O.A. PROTECTION THERMAL OVERLOAD PROTECTION LOW BIAS CURRENT ON REGULATION PIN LOW STANDBY CURRENT DRAIN Pentawatt® TO-3 (4 lead) DESCRIPTION The L200 is a monolithic integrated circuit for voltage and current programmable regulation. It is avai.

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® L200 ADJUSTABLE VOLTAGE AND CURRENT REGULATOR ADJUSTABLE OUTPUT CURRENT UP TO 2 A (GUARANTEED UP TO Tj = 150 °C) ADJUSTABLE OUTPUT VOLTAGE DOWN TO 2.85 V INPUT OVERVOLTAGE PROTECTION (UP TO 60 V, 10 ms) SHORT CIRCUIT PROTECTION OUTPUT TRANSISTOR S.O.A. PROTECTION THERMAL OVERLOAD PROTECTION LOW BIAS CURRENT ON REGULATION PIN LOW STANDBY CURRENT DRAIN Pentawatt® TO-3 (4 lead) DESCRIPTION The L200 is a monolithic integrated circuit for voltage and current programmable regulation. It is available in Pentawatt® package or 4-lead TO-3 metal case.Current limiting, power limiting, thermal shutdown and input overvoltage protection (up to ABSOLUTE MAXIMUM RATINGS Symbol Vi Vi ∆Vi-o Io Ptot Tstg Top DC Input Voltage Peak Input Voltage (10 ms) Dropout Voltage Output Current Power Dissipation Storage Temperature Operating Junction Temperature for L200C for L200 Parameter 60 V) make the L200 virtually blow-out proof. The L200 can be used to replace fixed voltage regulators when high output voltage precision is required and eliminates the need to stock a range of fixed voltage regulators. Value 40 60 32 internally limited internally limited -55 to 150 -25 to 150 -55 to 150 Unit V V V °C °C °C THERMAL DATA TO-3 R th j-case R th j-amb Thermal Resistance Junction-case Thermal Resistance Junction-ambient Max Max 4 °C/W 35 °C/W Pentawatt® 3 °C/W 50 °C/W January 2000 1/12 L200 CONNECTION DIAGRAMS AND ORDER CODES (top views) Type L200 L200 C Pentawatt® TO-3 L200 T L200 CH L200 CV L200 CT BLOCK DIAGRAM APPLICATION CIRCUITS Figure 1. Programmable Voltage Regulator with Current Limiting Figure 2. Programmable Current Regulator. 2/12 L200 SCHEMATIC DIAGRAM ELECTRICAL CHARACTERISTICS (Tamb = 25 °C, unless otherwise specified) Symbol Parameter Test Conditions Min. Typ. Max. Unit VOLTAGE REGULATION LOOP Id eN Vo ∆ Vo Vo ∆ Vi ∆ Vo SVR Supply Voltage Rejection Quiescent drain Current (pin 3) Output Noise Voltage Output Voltage Range Voltage Load Regulation (note 1) Line Regulation Vi = 20 V Vo = Vref B = 1 MHz Io = 10 mA ∆Io = 2 A ∆Io = 1.5 A V0 = 5 V Vi = 8 to 18 V V0 = 5 V Io = 500 mA ∆Vi = 10 Vpp f = 100 Hz (note 2) Io = 1.5 A Vi = 20 V ∆V0 ≤ 2% Io = 10 mA 2.64 Io = 10 mA 80 2.85 0.15 0.1 36 1 0.9 4.2 9.2 mA µV V % % 48 60 dB 48 60 2 2.77 2.5 2.86 dB V V ∆Vi-o Vref Droupout Voltage between Pins 1 and 5 Reference Voltage (pin 4) 3/12 L200 ELECTRICAL CHARACTERISTICS (continued) Symbol ∆V ref Parameter Average Temperature Coefficient of Reference Voltage Test Conditions Vi = 20 V Io = 10mA for Tj = - 25 to 125 °C for Tj = 125 to 150 °C Min. Typ. -0.25 -1.5 3 -0.5 10 Max. Unit mV/°C mV/°C µA %/°C I4 ∆ I4 ∆ T • I4 Zo Bias Current and Pin 4 Average Temperature Coefficient (pin 4) Output Impedance Vi = 10 V Io = 0.5 A Vo = Vref f = 100 Hz 1.5 mΩ CURRENT REGULATION LOOP VSC ∆ VSC ∆ T • VSC ∆ Io Io Current Limit Sense Voltage between Pins 5 and 2 Average Temperature Coefficient of VSC Vi = 10 V I5 = 100 mA Vo = Vref 0.38 0.45 0.03 0.52 V %/°C Current Load Regulation Vi = 10 V Io = 0.5 A Io = 1A Io = 1.5 A ∆Vo = 3V 1.4 1 0.9 3.6 % % % A ISC Peak Short Circuit Current Vi - V0 = 14 V (pins 2 and 5 short circuited) Note 1: A load step of 2 A can be applied provited that input-output differential voltage is lower than 20 V (see Figure 3). Note 2: The same performance can be maintained at higher output levels if a bypassing capacitor is provited between pins 2 and 4. Figure 3. Typical Safe Operating Area Protection. Figure 4. Quiescent Current vs. Supply Voltage. 4/12 L200 Figure 5. Quiescent Current vs. Junction Voltage. Figure 6. Quiescent Current vs. Output Current. Figure 7. Output Noise Voltage vs. Output Voltage. Figure 8. Output Noise Voltage vs. Frequency. Figure 9. Reference Voltage vs. Junction Temperature. Figure 10. Voltage Load Regulation vs. Junction Temperature. 5/12 L200 Figure 11. Supply Voltage Rejection vs. Frequency. Figure 12. Dropout Voltage vs. Junction Temperature. Fi g ur e 1 3 . Ou tpu t I mpe d anc e v s. Frequency. Figure 14. Output Impedance vs. Output Current. Figure 15. Voltage Transient Reponse. Figure 16. Load Transient Reponse. 6/12 L200 Figure 17. Load Transient Reponse Figure 18. Current Limit Sense Voltage vs. JunctionTemperature. APPLICATIONS CIRCUITS Figure 19. - Programmable Voltage Regulator Figure 20. - P.C.Board and Components Layout of Figure 19. Figure 21. - High Current Voltage Regulator with Short Circuit Protection. Figure 22. - Digitally Selected Regulator with Inhibit. 7/12 L200 Figure 23. Programmable Voltage and Current Regulator. Note: Connecting point A to a negative voltage (for example - 3V/10 mA) it is possible to extend the output voltage range down to 0 V and obtain the current limiting down to this level (output short-circuit condition). Figure 24. High Current Regulator with NPN PassTransistor. Figure 25. High Current Tracking Regualtor. 8/12 L200 Figure 26. High Input and Output Voltage. Figure 27. Constant Curre.


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