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FHR1200 Micro-Power, Ultra Wide Voltage Regulator Features Description * Low Operating Current: 12 A Max. * Option to Direct Drive Feedback Pin on PWM Controllers * Programmable Output: 7.5 V to 100 V * Wide Operating Temperature Range: -55C to +150C * Output Voltage Accuracy: 2% * Excellent Output Voltage Compensation: -30 PPM/C * Sink Current Capability: 10 A to 50 mA * Small Package: SC70-6 (SOT363) The FHR1200 is a high-efficiency regulator that outperforms the typical shunt regulator in applications where low operating power, wide temperature, and wide voltage range is important. The regulator also features better stability and faster response than many existing regulators. Unlike the LM431 type of part, the FHR1200 can directly drive a power supply controller thus saving parts count and circuit complexity in many applications. This also makes the FHR1200 ideal for non-isolated secondary side, primary side, and floating regulation. Non-isolated secondary side regulation saves the cost of OPTOs and simplifies the power supply design. Applications * Primary-Side Regulation in Flyback SMPS * Secondary-Side Regulation in Flyback SMPS * High Input Voltage SMPS o Smart Meter o Industrial Motor Control o Wireless Infrastructure * Industrial and Street Lighting LED Power Supplies The FHR1200 is very flexible and can be used in many diverse applications. For example: VCC regulators to >100 volts, small additional auxiliary power supplies, programmable precision zener diodes (both high and low power), plus numerous analog circuits. The FHR1200 is packaged in space-saving surfacemount SC70-6 (SOT363) to minimize layout space and cost. Typical Application VAC IN CAPACITORS and BALANCE INPUT RECTIFIERS PWM CONTROLLER + C3 VDC OUT TRANSISTOR SWITCH FB FHR1200 OPTOCOUPLER Figure1. Flyback Power Supply Secondary-Side Regulation Ordering Information Part Number Top Mark Package Packing Method Remarks FHR1200 FH SC70-6 (SOT363) Tape and Reel 3000 pcs, Reel Size is 7" (c) 2013 Fairchild Semiconductor Corporation FHR1200 Rev. 1.0.1 www.fairchildsemi.com 1 FHR1200 -- Micro-Power, Ultra Wide Voltage Regulator February 2014 FHR1200 -- Micro-Power, Ultra Wide Voltage Regulator Block Diagram A E 1 6 B C C N.C 2 5 B K 3 4 A K Pin1 SC70-6 N.C E Figure 3. Device Package Figure 2. Internal Connection Pin Definitions Pin # Pin Name 1 E Description 2 N.C 3 K Reference Voltage 4 A Ref Bias Pin: Tie R4 to ground to bias; Tie cap to ground for lower noise Ground Connection No Connection 5 B Reference Bias Pin 6 C Regulator Output Absolute Maximum Ratings Stresses exceeding the absolute maximum ratings may damage the device. The device may not function or be operable above the recommended operating conditions and stressing the parts to these levels is not recommended. In addition, extended exposure to stresses above the recommended operating conditions may affect device reliability. The absolute maximum ratings are stress ratings only. Values are at TA = 25C unless otherwise noted. Symbol Value Unit VOUT Regulator Output 100 V IBIAS Cathode Current 50 mA 227 mW -55 to +150 C PD TJ, TSTG Parameter Power Dissipation TA = 25C Operating and Storage Junction Temperature Range Thermal Characteristics(1) Symbol Value Unit RJA Thermal Resistance, Junction to Air Parameter 550 C/W JB Junction to Board Thermal Characterization Parameter 370 C/W Note: 1. PCB Board Size: FR4 76 x 114 x 0.6 T mm3 (3.0 inch x 4.5 inch x 0.062 inch) with minimum land pattern size. JB test method: T-36 gauge thermocouple is soldered directly to the collector lead pin about 1 mm distance from package lead. (c) 2013 Fairchild Semiconductor Corporation FHR1200 Rev. 1.0.1 www.fairchildsemi.com 2 Values are at TA = 25C unless otherwise noted. Symbol VREF TCVREF VREF/ VOUT IZ/T SR Reference Voltage (Zener + Base Emitter Voltage) Temperature Coefficient(2) VOUT = VREF, Fig. 4, Accuracy = 2%, Ratio of the Change in Reference Voltage to the Change in Cathode Voltage Fig. 5, VCC = VOUT + 20 V, IZ = 25A, VOUT = VREF +75V, R5 = (3) R3 = 49.9 k , IREF = 1 , R4 = 23.2 k , ICC = 200 Min. TA = 0 to R3 = 49.9 k , IREF = 1 A, +100C R4 = 9.53 k , ICC = 200 A, TA = -40 to IZ = 60 A, VCC = 10 V +125C Output Impedance Fig. 4, VOUT = VREF, VCC = 15.4 | 19.4 V, IZ = 25 A, f = 0 Hz, R5 = (5) Output Noise Voltage(6) VOUT = VREF, Fig. 6, ICC = 1.0 mA, VCC = 17.3 V, VREF= 7.35 V, IZ=25 A, R3 = 15.00 k , R4 = 28.7 k , f = 400 Hz to 100 KHz Typ. Max. 7.115 7.260 7.405 R3 = 100 k , R2 = 53.6 k , R1 = 0 | 499 k , R4 = 23.2 k , ICC = 200 A, IREF = 150 A Z VREF/ ICC GBW (3db) Conditions VOUT = VREF, Fig. 4, VCC = 17.3 V, Accuracy = 2%, IZ = 25 A Reference Input Current ICC = 1.0 mA, Fig. 5, VCC = 17.3 V, R1 = 10.0 k , R2 = , R3 = 100 k , R4 = 499 k , Deviation of Reference R5 = (4) I Over Temperature IZ en Parameter ICC = 160 | 240 A, R3 = 49.9 k , R4 = 23.2 k CN = n/a, CL = n/a Units V 29 PPM/C 57 0.024 0.200 7.7 12.0 A A/C 5.45 154 mV/V 300 141.0 CN = 0.1 F, CL = n/a 8.1 CN = n/a, CL = 0.1 F 57 CN = 0.1 F, CL = 0.1 F 8.0 Vrms ICC = 1.0 mA, VCC = 27 VDC, VIN = 2 Vp-p, IB1 = 5 A, IZ = 25 A, CG,CL = , CN = 0.1 F, Gain Bandwidth Product R1 = 23.2 k , R2 = 39.2 k , R3 = 15 k , R4 = 28.7 k , R5 = 22 k , VOUT = 12 V, IREF = 200 A, Gain = -1, Fig. 7 4.47 MHz ICC = 1.0 mA, VCC = 27 VDC, VIN = 2 Vp-p, IB1 = 5 A, IZ = 25 A, CG,CL = , CN = 0.1 F, R1 = 23.2 k , R2 = 39.2 k , R3 = 15 k , R4 = 28.7 k , R5 = 22 k , VOUT = 12 V, IREF = 200 A, Gain = -1, Fig. 7 18.8 V/s Slew Rate Notes: 2. The deviation parameters VREF(dev) and IREF(dev) are defined as the differences between the maximum and minimum values obtained over the rated temperature range. The average full-range temperature coefficient of the reference input voltage, TCVREF, is defined as: ( VREF(dev) 6 VREF (TA=25C) * 10 ) (TA): Ambient Temperature ppm )= VREF(dev): VREF deviation over full temperature range C T where T is the rated operating free-air temperature range of the device. TCVREF can be positive or negative, depending on whether minimum VREF or maximum VREF, respectively, occurs at the lower temperature. VREF1 - VREF2 3. VREF = ABS VOUT1 - VOUT2 VOUT TCVREF|( 4. 5. IZ= ZOUT= VREF - VOUT R1 VREF2 - VREF1 ICC2 - ICC1 6. For testing: a) hfe typical ~200; b) all resistors are metal film; c) all capacitors are plastic film. (c) 2013 Fairchild Semiconductor Corporation FHR1200 Rev. 1.0.1 www.fairchildsemi.com 3 FHR1200 -- Micro-Power, Ultra Wide Voltage Regulator Electrical Characteristics Icc Iz IBIAS 6 3 R3 4 IBIAS R1 CC R5 IREF Iz Q1 4 IB1 VBE VREF R4 R2 VOUT + Q1 5 1 VBE R3 D1 VREF FHR1200 + 6 3 VIN D1 5 VCC Icc IREF VCC FHR1200 1 R4 VOUT=VREF(1+R1/R2)+(Iz*R1) Figure 5. Test Configured: VREF < VOUT Figure 4. Test Configured: VREF = VOUT Icc Icc Iz IREF IBIAS R1 R3 3 CN 4 Q1 5 VCC CC D1 IREF CL Iz CN 4 6 VREF R2 VBE R3 D1 CL IB1 Q1 5 1 VBE R5 VREF FHR1200 + 3 VIN 6 IBIAS CG VCC FHR1200 R4 VOUT + 1 R4 VOUT=VREF(1+R1/R2)+(Iz*R1) Figure 6. Test Configured: VREF = VOUT with Capacitance (c) 2013 Fairchild Semiconductor Corporation FHR1200 Rev. 1.0.1 Figure 7. Test Configured: VREF < VOUT with Capacitance www.fairchildsemi.com 4 FHR1200 -- Micro-Power, Ultra Wide Voltage Regulator Test Circuit 7.4 Icc Iz IBIAS 3 R3 D1 4 IREF 5 V CC 7.3 Reference Voltage, VREF[V] 6 V REF Q1 FHR1200 + 1 V BE 7.2 ICC = 1 mA 7.1 ICC = 200 A 7.0 R4 IZ = 25 A, R3 = 49.9 K R4 = 23.2 K for ICC = 200 A R4 = 28.7 K for ICC = 1 mA 6.9 -60 -40 -20 0 20 40 60 80 100 120 140 160 o Ambient Temperature, TA [ C] Figure 9. Reference Voltage vs. Ambient Temperature (Fixed Value R4, IZ ~ 25 A at 25oC) 7.4 7.4 7.3 7.3 Reference Voltage, VREF[V] Reference Voltage, VREF[V] Figure 8. Test Diagram: VREF = VOUT (Fixed Value of R4) 7.2 ICC = 1 mA ICC = 200 A 7.1 7.0 IZ = 40 A, R3 = 49.9 K 7.2 7.0 -20 0 IZ = 60 A, R3 = 49.9 K R4 = 9.53 K for ICC = 200 A R4 = 16.5 K for ICC = 1 mA -40 ICC = 200 A 7.1 R4 = 14.3 K for ICC = 200 A 6.9 -60 ICC = 1 mA R4 = 10.7 K for ICC = 1 mA 20 40 60 80 100 120 6.9 -60 140 160 o -40 -20 0 20 40 60 80 100 120 140 160 o Ambient Temperature, TA [ C] Ambient Temperature, TA [ C] Figure 11. Reference Voltage vs. Ambient Temperature (Fixed Value R4, IZ ~ 60 A at 25oC) Figure 10. Reference Voltage vs. Ambient Temperature (Fixed Value R4, IZ ~ 40 A at 25oC) 7.6 Reference Voltage, VREF[V] IZ = 1 A IZ = 2 A IZ = 10 A IZ = 5 A IZ = 25 A 7.4 7.2 7.0 6.8 6.6 R3 = 100 K IZ = 1 A for R4 = 562 K IZ = 2 A for R4 = 287 K 6.4 IZ = 5 A for R4 = 113 K IZ = 10 A for R4 = 56.2 K IZ = 25 A for R4 = 22.6 K 6.2 0 20 40 60 80 100 IBIAS [A] Figure 12. Minimum Cathode Current for Regulation (c) 2013 Fairchild Semiconductor Corporation FHR1200 Rev. 1.0.1 www.fairchildsemi.com 5 FHR1200 -- Micro-Power, Ultra Wide Voltage Regulator Typical Characteristics: VREF Figure 13. DC Current Gain vs. Collector Current Figure 14. Common Emitter Output Characteristics Figure 15. Collection-Emitter Saturation Voltage vs. Collector Current Figure 16. Typical Forward Voltage Figure 17. Typical Temperature Coefficient as Function of Working Current Figure 18. Zener Voltage vs. Applied Current (c) 2013 Fairchild Semiconductor Corporation FHR1200 Rev. 1.0.1 www.fairchildsemi.com 6 FHR1200 -- Micro-Power, Ultra Wide Voltage Regulator Typical Characteristics (Continued) r(t), Normalized Transient Thermal Resistance Total Power Dissipation, PD[mW] 300 250 200 150 100 50 0 0 25 50 75 100 125 150 D=1% 2% 0.1 Rthja(t)=r(t)*Rthja o Rthja=550 C/W 5% 10% 0.01 30% 50% 1E-3 Single Pulse 1E-4 1E-5 1E-4 1E-3 0.01 0.1 1 10 100 t1, time(sec) o Ambient Temperature, T A [ C] Figure 20. Transient Thermal Resistance Figure 19. Power Derating (c) 2013 Fairchild Semiconductor Corporation FHR1200 Rev. 1.0.1 1 www.fairchildsemi.com 7 FHR1200 -- Micro-Power, Ultra Wide Voltage Regulator Typical Characteristics (Continued) VAC IN CAPACITORS AND BALANCE INPUT RECTIFIERS VDC OUT VBIAS VBIAS VCC PWM CONTROLLER TRANSISTOR SWITCH FB FHR1200 Figure 21. Flyback Power Supply Primary-Side Regulation C A P A C IT O R S an d BALAN CE IN P U T R E C T IF IE R S PW M C O NTR O LLER T R A N S IS T O R S S W IT C H FB FH R1200 Figure 22. Flyback Power Supply Non-Isolated Secondary-Side Regulation (c) 2013 Fairchild Semiconductor Corporation FHR1200 Rev. 1.0.1 www.fairchildsemi.com 8 FHR1200 -- Micro-Power, Ultra Wide Voltage Regulator Typical Applications (Continued) FHR1200 -- Micro-Power, Ultra Wide Voltage Regulator Physical Dimensions SC70-6 (SOT363) SYMM C L 2.000.20 0.65 A 0.50 MIN 6 4 B PIN ONE 1.250.10 1 1.90 3 0.30 0.15 (0.25) 0.40 MIN 0.10 0.65 A B 1.30 LAND PATTERN RECOMMENDATION 1.30 1.00 0.80 SEE DETAIL A 1.10 0.80 0.10 C 0.10 0.00 C 2.100.30 SEATING PLANE NOTES: UNLESS OTHERWISE SPECIFIED GAGE PLANE (R0.10) 0.25 0.10 0.20 A) THIS PACKAGE CONFORMS TO EIAJ SC-88, 1996. B) ALL DIMENSIONS ARE IN MILLIMETERS. C) DIMENSIONS DO NOT INCLUDE BURRS OR MOLD FLASH. D) DRAWING FILENAME: MKT-MAA06AREV6 30 0 0.46 0.26 SCALE: 60X Figure 23. 6-Lead, SC-70, EIAJ SC-88, 1.25 MM WIDE Package drawings are provided as a service to customers considering Fairchild components. Drawings may change in any manner without notice. Please note the revision and/or date on the drawing and contact a Fairchild Semiconductor representative to verify or obtain the most recent revision. Package specifications do not expand the terms of Fairchild's worldwide terms and conditions, specifically the warranty therein, which covers Fairchild products. Always visit Fairchild Semiconductor's online packaging area for the most recent package drawings: http://www.fairchildsemi.com/dwg/MA/MAA06A.pdf. For current tape and reel specifications, visit Fairchild Semiconductor's online packaging area: http://www.fairchildsemi.com/packing_dwg/PKG-MAA06A.pdf. (c) 2013 Fairchild Semiconductor Corporation FHR1200 Rev. 1.0.1 www.fairchildsemi.com 9 TRADEMARKS The following includes registered and unregistered trademarks and service marks, owned by Fairchild Semiconductor and/or its global subsidiaries, and is not intended to be an exhaustive list of all such trademarks. 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