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| www.fairchildsemi.com KA3505 PC SMPS Supervisory IC Features * * * * * * * * * * * * * PC Power Supply Output Monitor Circuitry Few External Components Over Voltage Protection for 3.3V / 5V / 12V Output Under Voltage Protection for 3.3V / 5V / 12V Output With Delay Time Over Current Protection for 3.3V / 5V / 12V Output With Delay Time Fault Protection Output With Open Collector Output Power Supply On/Off Delay Time Control (PSON) Power Good Signal Generator With Hysteresis Open Collector PG Output 300ms Power Good Delay Current Sense Setting Function With RI Latch Function Controlled by PSON and Protection Input 16-Pin Dual In-line Package Description The KA3505 is complete output supervisory circuitry intended for use in the secondary side of the switched mode power supply. It provides all the functions necessary to monitor and control the output of the power supply system. Power good signal generator, Remote on and off control, some precision protection features against over-voltage, under-voltage and over-current are implemented. It directly senses all the output rails for OVP and UVP without any external dividers. As for output control, Power Good Output (PGO) and Fault Protection Output (FPO) are also included. Utilizing a minimum number of external components, the KA3505 offers a simple and cost effective solution, greatly reducing PCB board space for power supply system. OCP (Over Current Protection) It has precision OCP functions for +3.3V, +5V, +12V outputs. The block is made up of three comparators with current source setting function. Two inputs of each OCP comparator are connected to both sides of output inductor that is located in the secondary output of SMPS. FPO (Fault Protection Output) Fault Protection Output indicates the fault condition as protection signal. When fault state occurs, the main power is to be turned-off and the PGO signal goes LOW. NORMAL = "LOW", FAULT = "HIGH" OVP (Over Voltage Protection) It has OVP functions for +3.3V, +5V, +12V outputs. The circuit is made up of a comparator with three detecting inputs. UVP (Under Voltage Protection) It also has UVP functions for +3.3V, +5V, +12V outputs. The block is made up of a comparator with three detecting inputs. PGO (Power Good Output) Power Good Signal Generator is to monitor the voltage level of power supply for safe operation of a microprocessor having some delay time at turn-on. The delay time is programmed by a timing capacitor connected to TPG pin of KA3505. The power good output should be low state before the output voltage is out of regulation at turn-off. NORMAL = "HIGH", FAULT = "LOW" Remote ON/OFF Remote on/off section is used to control SMPS externally. If a high signal is supplied to the remote on/off input, FPO signal becomes a high state and all secondary outputs are grounded. The remote on/off signal is transferred with some on-delay and off-delay time of 8ms, 24ms respectively with 0.1mF external capacitor. 16-DIP 1 Rev. 5.0 (c)2000 Fairchild Semiconductor Interaltional KA3505 Internal Block Diagram VS33 1 VS5 VS12 2 3 RI 11 Vcc 5 FPO PGI 6 4 Start Up Internal Bias Bandgap Reference Vref VBG=1.25V RI=62K Iref(20A) ICHG(PG)=15A 9 OVP Detector Vref UVP Detector Vref ICHG(PROT)=20 A COMP4 S Q R Q1 COMP7 Q2 1.8 ~ 0.6V UVP Det ector Output COMP8 Q3 PGO IS12 14 COMP1 Iref x 5 (100A) 1.8~ 0.6V 1.25V On/Of f Delay Con t rol COMP6 IS5 15 COMP2 Iref x 5 (100A) COMP5 1.4V 1.8~ 0.6V IS33 16 COMP3 Iref x 5 (100A) 13 7 8 12 10 TPROT PSON TPSON GND TPG Absolute Maximum Ratings Parameter Supply Voltage Input Voltage FPO Voltage FPO Maximum Current Operating Temperature Storage Temperature Range Power Dissipation Symbol VCC Vinput VFPO IFPO Topr Tstg PD Value 15 ~ 30 30 30 20 -20 ~ +85 -65 ~ +150 1 Unit V V V mA C C W 2 KA3505 Pin Assignments : KA3505 VS33 1 VS5 2 VS12 3 PGI 4 Vcc 5 FPO 6 PSON 7 TPSON 8 16 15 IS33 IS5 IS12 TPROT GND RI TPG PGO K A 3 5 0 5 14 13 12 11 10 9 3 KA3505 Pin Defintions Pin No. 1 2 3 4 5 6 Name V33 V5 V12 PGI VCC FPO Pin Function Description Over and Under Voltage Protection Input for the 3.3V. It directly senses the 3.3V rail without any external divider. Over and Under Voltage Protection Input for the 5V. It directly senses the 5V rail without any external divider. Over and Under Voltage Protection Input for the 12V. It directly senses the 12V rail without any external divider. Power Good Signal Generator Input. It should be supplied from a bulk dependent voltage in order to detect power on and off state. Supply voltage. Its recommended operating voltage is ranged from 15V to 30V. Fault Protection Output (Open Collector Output). This pin indicates the fault condition. When fault state occurs, the PGO signal goes Low. Normal = 'Low", Fault = "High". Remote on/off input. It does TTL operation and its threshold voltage is 1.4V. In case of open circuit, the voltage at this pin is High (5.0V). If PSON = "Low", then FPO = "Low". It means the main SMPS is working. When PSON = "High or Open", then FPO = "High" and the main SMPS stops to work. Timing pin for PSON delay. Ton/Toff=8ms/24ms (Typ.) with Cpson=0.1F externally. PSON On Delay Time (Ton) is measured as PSON input goes Low to High. PSON Off Delay Time (Toff) can be measured reversely. Power Good Output Signal (Open Collector). PGO = "High" means "Power Good" for operation and PGO = "Low" means "Power Fail". Timing pin for PGO delay. TPG = 270ms (Typ.) with CPG = 2.2F externally. The high/low threshold voltages are 1.8V/0.6V and the voltage of pin10 would be charged up to 2.9V for noise margin. OCP current sense setting pin. The reference voltage at this pin is set to 1.25V internally.You can fix the OCP reference current by using RI resistor. Ground Timing pin for under voltage protection and over current protection blank-out time. Its threshold voltage is 1.8V and clamped at 2.9V after full charging. Target of delay time is 38ms and it is realized through external capacitor (C=0.47F). Current sense input for +12V. This pin is connected to the current sensing resistor or inductor. You can define OCP offset voltage for +12V by using RI resistor externally. If you connected RI resistor of 62 at Pin11 to ground, the reference current(Iref) should be 20A. After that, you can make a constant OCP offset voltage (VOFFSET = RO x 5 x Iref). In case the voltage drop (=IO.12 x RS) of the sense resistor or inductor is larger than offset voltage, FPO becomes "High" after some delay time and the main SMPS is turned-off. So the over current level is determined by following equation. (IO.12 = VOFFSET/ RS) See application note for details. Current sense input for +5V. You can make the +5V OCP function as previous method in IS12 (Pin14). Current sense input for +3.3V. You can also make the +3.3V OCP function as previous method in IS12 (Pin14). 7 PSON 8 TPSON 9 PGO 10 TPG 11 12 13 RI GND TPROT 14 IS12 15 16 IS5 IS33 4 KA3505 ELECTRICAL CHARACTERISTICS (VCC = 20V, -25C < Ta < 85C, unless otherwise specified) Characteristic Symbol PROTECTION SECTION Over Voltage Protection for 3.3V VOVP33 Over Voltage Protection for 5V VOVP5 Over Voltage Protection for 12V VOVP12 Under Voltage Protection for 3.3V VUVP33 Under Voltage Protection for 5V VUVP5 Under Voltage Protection for 12V VUVP12 Offset Voltage of OCP Comparator Voffset Charging Current for OCP, UVP Delay ICHG(PROT) 3.3, 5, 12V Over Current Delay Time TD(OCP) 3.3, 5, 12V Under Voltage Delay Time TD(UVP) POWER SUPPLU ON/OFF SECTION (PSON) Note PSON Input Threshold VTG VTH(PSON) PSON Open Voltage VOPEN(PSON) PSON Input Low Current ILOW(PSON) ON Delay Time TON(PSON) OFF Delay Time TOFF(PSON) FPO SECTION FPO Saturation Voltage VSAT(FPO) FPO Leakage Current VLKG(FPO) Test Conditions VPSON = 0V VPSON = 0V VPSON = 0V VPSON = 0V VPSON = 0V VPSON = 0V VPSON = 0V C = 0.47F C = 0.47F PSON: "H" "L" PSON: Open VPSON = 0V C = 0.1F C = 0.1F IO = 10mA VFPO = 20V Min. 3.9 5.7 13.6 2.69 4.1 9.8 -3 -15 24 24 1 4 4 16 Typ. 4.1 6.1 14.3 2.83 4.3 10.3 -21 38 38 1.4 8 24 0.2 0.01 Max. 4.3 6.5 15.0 2.97 4.5 10.8 3 -30 57 57 1.8 5.25 -1.6 14 34 0.4 1 Unit V V V V V V mV A msec msec V V mA msec msec V A Electrical Characteristics (VCC = 20V, -25C < Ta < 85C, unless otherwise specified) Characteristic POWER GOOD SECTION PG Input Threshold Voltage Hysteresis Voltage 1 Hysteresis Voltage 2 Charging Current for PG Delay PG Delay Time PG Output Saturation Voltage TOTAL DEVICE Stand-by Supply Current Symbol VIN(PG1) HY1 HY2 ICHG(PG) TD(PG) VSAT(PG) ICC Test Conditions PG: "H""L" COMP7 COMP4, 6, 8 - C = 2.2F VPG = 10mA - Min. 1.20 10 0.6 -9 150 Typ. 1.25 40 1.2 -14 270 0.2 5 Max. 1.30 80 -22 450 0.4 10 Unit V mV V A msec V mA Notes: 1. It does TTL operation and its threshold voltage is 1.4V. 2. Power Supply ON Delay Time (Ton) is measured as PSON input goes "Low" to "High". 3. Power Supply OFF Delay Time (Toff) is measured as PSON input goes "High" to "Low". 5 KA3505 Timing / Housekeeping / Control Remote on/off Toff Delay Ton Delay Output Voltage (3.3V, 5V, 12V) PGO PG Delay PG Delay FPO Operating Mode Stand-by Mode Vcc PGI Detection Point Main Power Switch ON Power on/off OFF 6 KA3505 Test Circuit 1 VS33 2 VS5 3 VS12 4 PGI 5 Vcc 20V 10 IS 3 3 16 IS 5 15 6 FPO 7 PSON 0.1F K A 3 5 0 5 IS12 14 T PROT 13 GND 12 RI 0. 47F 11 62 2.2F TPG S 10 PGO 9 8 TPSON 5V 1 7 KA3505 Typical Characteristics Icc 0.006 20 0.005 Icc=4.881mA Vcc=20V VOVP33 0.004 15 Icc[A] 0.003 FPO Voltage[V] 0 10 20 30 40 10 0.002 5 0.001 0 0.000 3.4 3.6 3.8 4.0 4.2 4.4 4.6 Vcc[V] 3.3V Output Voltage[V] Figure 1. VCC - ICC VOVP5 Figure 2. Over Voltage Protection for 3.3V VOVP12 20 20 15 15 FPO Voltage[V] 10 FPO Voltage[V] 5.4 5.6 5.8 6.0 6.2 6.4 6.6 10 5 5 0 0 13.0 13.5 14.0 14.5 15.0 5V Output Voltage[V] 12V Output Voltage[V] Figure 3. Over Voltage Protection for +5V VUVP33 Figure 4. Over Voltage Protection for +12V VUVP5 20 20 15 15 PGO Voltage[V] 2.5 2.6 2.7 2.8 2.9 3.0 PGO Voltage[V] 10 10 5 5 0 0 4.0 4.1 4.2 4.3 4.4 4.5 3.3V Output Voltage[v] 5V Output Voltage[V] Figure 5. Under Voltage Protection for +3.3V Figure 6. Under Voltage Protection for +5V 8 KA3505 Typical Characteristics (Continued) VUVP12 VTH.PSON 20 20 15 15 10 PGO Voltage[V] 9.4 9.6 9.8 10.0 10.2 10.4 10.6 10.8 11.0 11.2 PGO Voltage[V] 10 5 5 0 0 0 1 2 3 4 5 12V Output Voltage[V] PSON Voltage[V] Figure 7. Under Voltage Protection for +12V ION.OFF 0.000010 20 Figure 8. PSON Input Threshold Voltage PGI 0.000005 0.000000 15 -0.000005 PGO Voltage[V] ION.OFF[A] 10 -0.000010 5 -0.000015 0 -0.000020 0 1 2 3 4 5 1.0 1.1 1.2 1.3 1.4 1.5 PSON Voltage[V] PGI Voltage[V] Figure 9. PS On/Off Delay Current HY1 Figure 10. PG Input Threshold Voltage HY2 20 20 15 PGO Voltage[V] 10 PGO Voltage[V] 1.0 1.1 1.2 1.3 1.4 1.5 15 10 5 5 0 0 0.0 0.5 1.0 1.5 2.0 2.5 PGI Voltage[V] TPG Voltage[V] Figure 11. Hysteresis Voltage 1 Figure 12. Hysteresis Voltage 2 9 KA3505 Voltage Mode Application Schemati D1 L1 L4 D2 AC Input FUSE C2 1000uF 1uF R2 C5 C8 1000uF - + C1 220uF M1 D3 L2 L5 D4 R1 0.27 C3 1000uF 1uF R3 C6 R5 C9 1000uF D5 L3 L6 D6 C4 1000uF 1uF R4 C7 C10 1000uF R6 +5Vsb 5 5 6 6 7 7 8 8 KA38XX 4 4 3 3 2 2 1 C15 R12 R7 Vcc R15 C14 10nF R13 10 TL431 R8 R10 C11 8 0.1uF 7 10 6 11 5 12 4 13 3 14 2 15 1 16DIP 16 KA3505 R14 10 D7 R15 330 Q1 R11 REMOTE ON/OFF +5Vsb POWER GOOD C12 2.2uF R9 C13 62 0.47uF R16 9 10 KA3505 Current Mode Application Schematic D1 L1 L4 D2 AC Input FUSE C2 1000uF 1uF R2 C5 C8 1000uF - + C1 220uF M1 D3 L2 L5 D4 R1 0.27 C3 1000uF 1uF R3 C6 R5 C9 1000uF D5 L3 L6 D6 C4 1000uF 1uF R4 C7 C10 1000uF R6 +5Vsb 5 5 6 6 7 7 8 8 KA38XX 4 4 3 3 2 2 1 C15 R12 R7 Vcc R15 C14 10nF R13 10 TL431 R8 R10 C11 8 0.1uF 7 10 6 11 5 12 4 13 3 14 2 15 1 16DIP 16 KA3505 R14 10 D7 R15 330 Q1 R11 REMOTE ON/OFF +5Vsb POWER GOOD C12 2.2uF R9 C13 62 0.47uF R16 9 11 KA3505 Mechanical Dimensions Package Dimensions in millimeters 16-DIP 0.81 ) 0.032 #16 ( #1 6.40 0.20 0.252 0.008 19.80 MAX 0.780 19.40 0.20 0.764 0.008 #8 #9 7.62 0.300 3.25 0.20 0.128 0.008 0.38 0.014 MIN 5.08 MAX 0.200 3.30 0.30 0.130 0.012 0~15 0.25 -0.05 0.010 -0.002 +0.004 +0.10 12 2.54 0.100 0.46 0.10 0.018 0.004 1.50 0.10 0.059 0.004 KA3505 Ordering Information Product Number KA3505 Package 16-DIP Operating Temperature -25C ~ +85C 13 KA3505 DISCLAIMER FAIRCHILD SEMICONDUCTOR RESERVES THE RIGHT TO MAKE CHANGES WITHOUT FURTHER NOTICE TO ANY PRODUCTS HEREIN TO IMPROVE RELIABILITY, FUNCTION OR DESIGN. FAIRCHILD DOES NOT ASSUME ANY LIABILITY ARISING OUT OF THE APPLICATION OR USE OF ANY PRODUCT OR CIRCUIT DESCRIBED HEREIN; NEITHER DOES IT CONVEY ANY LICENSE UNDER ITS PATENT RIGHTS, NOR THE RIGHTS OF OTHERS. LIFE SUPPORT POLICY FAIRCHILD'S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT OF FAIRCHILD SEMICONDUCTOR INTERNATIONAL. As used herein: 1. Life support devices or systems are devices or systems which, (a) are intended for surgical implant into the body, or (b) support or sustain life, and (c) whose failure to perform when properly used in accordance with instructions for use provided in the labeling, can be reasonably expected to result in a significant injury of the user. www.fairchildsemi.com 9/25/00 0.0m 001 Stock#DSxxxxxxxx 2000 Fairchild Semiconductor International 2. A critical component in any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness. |
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