IR3092MTR

IR3092 DATA SHEET 2 PHASE OPTERON, ATHLON, OR VR10.X CONTROL IC DESCRIPTION The IR3092 Control IC provides a full featured, single chip solution to implement robust power conversion solutions for three different microprocessor families; 1) AMD Opteron, 2) AMD Athlon or 3) Intel VR10.X family of processors. The user can select the appropriate VID range with a single pin. PWM Control and 2 phase gate drive functions are integrated into a single IC. In addition to CPU power, the IR3092 offers a compact, efficient solution for high current POL converters. FEATURES x x x x x x x x x x x x x x x 5 bit or 6 bit VID with 0.5% overall system accuracy Selectable VID Code for AMD Opteron, AMD Athlon or Intel VR10.X Programmable Slew Rate response to “On-the-Fly” VID Code Changes 3.5A Gate Drive Capability Programmable 100KHz to 540KHz oscillator Programmable Voltage Positioning (can be disabled) Programmable Softstart Programmable Hiccup Over-Current Protection with Delay to prevent false triggering Simplified Powergood provides indication of proper operation and avoids false triggering Operates up to 21V input with 7.8V Under-Voltage Lockout 5V UVL with 4.3V Under-Voltage Lockout threshold Adjustable Voltage, 150mA Bias Regulator provides MOSFET Drive Voltage Enable Input OVP Output Available in a 48L MLPQ package ORDERING INFORMATION x DEVICE ORDER QUANTITY IR3092MTR 3000 per Reel *IR3092M 100 piece strips Samples Only VID2 VID1 VID0 VID5 NC NC ENABLE OVP CSINP1 CSINM NC VCCH1 PACKAGE INFORMATION Page 1 of 37 IR3092 48LD MLPQ LGND SETBIAS VCC NC NC BIASOUT PWRGD CSINP2 NC VID_SEL NC NC VID3 VID4 ROSC VOSNSOCSET VDAC VDRP FB EAOUT SS/DEL SCOMP NC GAT EH1 PGND1 GAT EL1 VCCL 5VUVL GAT EL2 PGND2 GAT EH2 VCCH2 NC NC NC 48L MLPQ (7 x 7 mm Body) o – JA = 27 C/W 06/25/04 IR3092 PIN DESCRIPTION PIN# PIN SYMBOL PIN DESCRIPTION 1 2 3 4 VID3 VID4 ROSC VOSNS- 5 OCSET 6 VDAC 7 VDRP 8 FB 9 EAOUT 10 SS/DEL 11 SCOMP 12 13 14 15 16-17 18 19 20 21 22 23-27 28 29 30 31 N/C LGND SETBIAS VCC N/C BIASOUT PWRGD CSINP2 N/C VID_SEL N/C VCCH2 GATEH2 PGND2 GATEL2 32 5VUVL 33 34 35 36 37 38 39 40 41 42 43-44 45 46 47 48 VCCL GATEL1 PGND1 GATEH1 VCCH1 NC CSINM1 CSINP1 OVP ENABLE N/C VID5 VID0 VID1 VID2 Page 2 of 37 Inputs to VID D to A Converter Inputs to VID D to A Converter Connect a resistor to VOSNS- to program oscillator frequency and FB, OCSET, BBFB, and VDAC bias currents Remote Sense Input. Connect to ground at the Load. Programs the hiccup over-current threshold through an external resistor tied to VDAC and an internal current source. Regulated voltage programmed by the VID inputs. Current Sensing and Over Current Protection are referenced to this pin. Connect an external RC network to VOSNS- to program Dynamic VID slew rate. Buffered IIN signal. Connect an external RC network to FB to program converter output impedance Inverting input to the Error Amplifier. Converter output voltage is offset from the VDAC voltage through an external resistor connected to the converter output voltage at the load and an internal current source. Bias current is a function of ROSC. Also OVPsense. Output of the Error Amplifier Controls Converter Softstart, Power Good, and Over-Current Timing. Connect an external capacitor to LGND to program the timing. Compensation for the Current Share control loop. Connect a capacitor to ground to set the control loop’s bandwidth. Phase 2 is forced to match phase 1’s current. No Connect. Local Ground and IC substrate connection External resistor to ground sets voltage at BIASOUT pin. Bias current is a function of ROSC. Power for internal circuitry and source for BIASOUT regulator No Connect. 150mA open-looped regulated voltage set by SETBIAS for GATE drive bias. Open Collector output that drives low during Softstart or any fault condition. Connect external pull-up. Non-inverting input to the Phase 2 Current Sense Amplifier. No Connect. Ground Selects VR10 VID, Float Selects OPTERON VID, VCC Selects ATHLON VID No Connect. Power for Phase 2 High-Side Gate Driver Phase 2 High-Side Gate Driver Output and input to GATEL2 non-overlap comparator. Return for Phase 2 Gate Drivers Phase 2 Low-Side Gate Driver Output and input to GATEH2 non-overlap comparator. Can be used to monitor the driver supply voltage or 5V supply voltage when converting from 5V. An under voltage condition initiates Soft Start. Power for Phase 1 and 2 Low-Side Gate Drivers. Phase 1 Low-Side Gate Driver Output and input to GATEH1 non-overlap comparator. Return for Phase 1 Gate Drivers Phase 1 High-Side Gate Driver Output and input to GATEL1 non-overlap comparator. Power for Phase 1 High-Side Gate Driver Not connected Inverting input to the Phase 1Current Sense Amplifier. Non-inverting input to the Current Sense Amplifier. Output that drives high during an Over-Voltage condition. Enable Input. A logic low applied to this pin puts the IC into Fault mode. No Connect. Inputs to VID D to A Converter Inputs to VID D to A Converter Inputs to VID D to A Converter Inputs to VID D to A Converter 06/25/04 IR3092 ABSOLUTE MAXIMUM RATINGS o Operating Junction Temperature……………..150 C o o Storage Temperature Range………………….-65 C to 150 C PIN 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 NAME VID3 VID4 ROSC VOSNSOCSET VDAC VDRP FB EAOUT SS/DEL SCOMP N/C LGND SETBIAS VCC N/C N/C BIASOUT PWRGD CSINP2 N/C VID_SEL N/C N/C N/C N/C N/C VCCH2 GATEH2 PGND2 GATEL2 5VUVL VCCL GATEL1 PGND1 GATEH1 VCCH1 N/C CSINM1 CSINP1 OVP ENABLE N/C N/C VID5 VID0 VID1 VID2 Page 3 of 37 VMAX 30V 30V 30V 0.5V 30V 30V 30V 30V 10V 30V 30V n/a n/a 30V 30V n/a n/a 30V 30V 30V n/a 30V n/a n/a n/a n/a n/a 30V 30V 0.3V 30V 30V 30V 30V 0.3V 30V 30V n/a 30V 30V 30V 30V n/a n/a 30V 30V 30V 30V VMIN -0.3V -0.3V -0.5V -0.5V -0.3V -0.3V -0.3V -0.3V -0.3V -0.3V -0.3V n/a n/a -0.3V -0.3V n/a n/a -0.3V -0.3V -0.3V n/a -0.3V n/a n/a n/a n/a n/a -0.3V -0.3V DC, -2V for 100ns -0.3V -0.3V DC, -2V for 100ns -0.3V -0.3V -0.3V DC, -2V for 100ns -0.3V -0.3V DC, -2V for 100ns -0.3V n/a -0.3V -0.3V -0.3V -0.3V n/a n/a -0.3V -0.3V -0.3V -0.3V ISOURCE 1mA 1mA 1mA 10mA 1mA 1mA 5mA 1mA 10mA 1mA 5mA n/a 50mA 1mA 1mA n/a n/a 250mA 1mA 250mA n/a 1mA n/a n/a n/a n/a n/a n/a 3A for 100ns, 200mA DC 3A for 100ns, 200mA DC 3A for 100ns, 200mA DC 1mA n/a 3A for 100ns, 200mA DC 3A for 100ns, 200mA DC 3A for 100ns, 200mA DC n/a n/a 250mA 250mA 1mA 1mA n/a n/a 1mA 1mA 1mA 1mA ISINK 1mA 1mA 1mA 10mA 1mA 1mA 5mA 1mA 20mA 1mA 5mA n/a 1mA 1mA 250mA n/a n/a 1mA 20mA 1mA n/a 1mA n/a n/a n/a n/a n/a 3A for 100ns, 200mA DC 3A for 100ns, 200mA DC n/a 3A for 100ns, 200mA DC 1mA 3A for 100ns, 200mA DC 3A for 100ns, 200mA DC n/a 3A for 100ns, 200mA DC 3A for 100ns, 200mA DC n/a 1mA 1mA 1mA 1mA n/a n/a 1mA 1mA 1mA 1mA 06/25/04 IR3092 ELECTRICAL SPECIFICATIONS Unless otherwise specified, these specifications apply over: 7.3V ” VCC ” 21V, 4V ” VCCL ” 14V, o o 4V ” VCCHX ” 28V, CGATEHX =3.3nF, CGATELX =6.8nF, 0 C ” TJ ” 125 C PARAMETER VDAC Reference System Set-Point Accuracy TEST CONDITION -0.3V ”92616- ”9&RQQHFW)%WR EAOUT, Measure V(EAOUT) – V(VOSNS-) deviation from Table 1. Applies to all VID codes. RROSC = 42kŸ9'$& 2&6(7 RROSC = 42kŸ9'$& 2&6(7 VID_SEL=0, Referenced to VOSNSVID_SEL=Float, Referenced to VOSNS- MIN TYP MAX 0.5 UNIT % 56 50 0.4 1.3 62 58 0.6 1.5 71 67 0.8 1.7 PA PA V V 1.0 1.2 1.4 V Tracks ATHLON threshold V(VID_SEL)3.2V 3.0 2.1 30 60 3.4 2.6 60 190 3.8 3.2 100 375 V V kŸ kŸ VID0-5 = 1V Referenced to LGND Delay to PWRGD assertion 9 4.5 0.5 15 4.9 1.7 27 5.2 4.1 PA V Ps Connect FB to EAOUT, Measure V(EAOUT)-V(VDAC). From Table 1. Applies to all VID codes and -0.3V ” VOSNS- ”91RWH -5 -1 3 mV FB Bias Current DC Gain Gain-Bandwidth Product RROSC = 42kŸ Note 1 Note 1 28 90 4 30.5 100 7 33 105 PA dB MHz Slew Rate Source Current Sink Current Max Voltage Min Voltage VDRP Buffer Amplifier Positioning Offset Voltage Note 1, 50mV FB signal 280 .75 4.5 1.25 380 1.0 4.9 90 500 1.5 5.3 150 V/Ps PA mA V mV -125 0 125 mV 0.2 5 200 10 280 3.75 20 400 V mA PA Source Current Sink Current VID Input Threshold, INTEL VID Input Threshold, AMD VID_SEL OPTERON Threshold VID_SEL ATHLON Threshold VID_SEL Float Voltage VID_SEL Pull-up Resistance VID_SEL Pull-down Resistance VID Pull-up Current VID Float Voltage VID = 11111 Fault Blanking Error Amplifier Input Offset Voltage Output Voltage Range Source Current Sink Current Page 4 of 37 V(VDRP) – V(VDAC) with CSINMX=CSINPX=0, Note 1. 06/25/04 IR3092 PARAMETER Oscillator Switching Frequency Phase1 to Phase2 Shift BIASOUT Regulator SETBIAS Bias Current Set Point Accuracy BIASOUT Dropout Voltage BIASOUT Current Limit Soft Start and Delay SS/DEL to FB Input Offset Voltage Charge Current Hiccup Discharge Current OC Discharge Current Charge/Discharge Current Ratio Charge Voltage Delay Comparator Threshold Delay Comparator Hysteresis Discharge Comparator Threshold Over-Current Comparator Input Offset Voltage OCSET Bias Current Max OCSET Set Point Under-Voltage Lockout VCC Start Threshold VCC Stop Threshold VCC Hysteresis 5VUVL Start Threshold 5VUVL Stop Threshold 5VUVL Hysteresis 5VUVL Input Resistance PWRGD Output Output Voltage Leakage Current Enable Input Threshold, INTEL Threshold, AMD Input Resistance Pull-up Voltage Page 5 of 37 TEST CONDITION MIN TYP MAX UNIT RROSC = 42kŸ GATEH1 rise to GATEH2 rise 160 155 200 170 240 190 kHz ° RROSC = 42kŸ V(SETBIAS)-V(BIASOUT) @ 100mA I(BIASOUT)=100mA,Threshold when V(SETBIAS)-V(BIASOUT)=0.45V 105 0.1 1.2 115 0.3 1.8 125 0.55 2.5 PA V V 150 300 450 mA 0.8 1.3 1.8 V 25 2.5 25 9 55 5.5 45 10 75 7.5 70 11 PA PA PA PA/PA 3.8 200 15 200 4.0 240 30 260 4.2 280 45 350 V mV mV mV -125 0 125 mV 28 3.95 30 33 PA V 7.2 6.7 450 4.05 3.92 100 24 7.8 7.3 500 4.3 4.125 175 36 8.3 7.8 750 4.55 4.33 250 72 V V mV V V mV kŸ 150 0 300 10 mV PA 0.4 1.3 0.6 1.5 0.8 1.7 V V 7.5 2.4 15 3.0 20 3.7 kŸ V With FB = 0V, adjust V(SS/DEL) until EAOUT drives high Relative to Charge Voltage V(OCSET)-V(VDAC), CSIN=CSINP1=CSINP2, Note 1. RROSC = 42kŸ Start – Stop Start – Stop To LGND I(PWRGD) = 4mA V(PWRGD) = 5.5V VID_SEL=0, Referenced to VOSNSVID_SEL=Float, Referenced to VOSNS- 06/25/04 IR3092 PARAMETER Gate Drivers GATEH Rise Time GATEH Fall Time GATEL Rise Time GATEL Fall Time High Voltage (AC) Low Voltage (AC) GATEL low to GATEH high delay GATEH low to GATEL high delay Disable Pull-Down Current PWM Comparator Propagation Delay TEST CONDITION VCCHX = 12V, Measure 2V to 9V transition time, Note 1 VCCHX = 12V, Measure 9V to 2V transition time, Note 1 VCCL = 12V, Measure 2V to 9V transition time, Note 1 VCCL = 12V, Measure 9V to 2V transition time, Note 1 Measure VCCL – GATELX or VCCHX – GATEHX, Note 1 Measure GATELX or GATEHX, Note 1 VCCHX = VCCL = 12V, Measure the time from GATELX falling to 2V to GATEHX rising to 2V, Note 1 VCCHX = VCCL = 12V, Measure the time from GATEHX falling to 2V to GATELX rising to 2V, Note 1 GATHX or GATELX=2V with VCC = 0V. Measure Gate pull-down current MIN TYP MAX UNIT 11 40 ns 11 40 ns 20 65 ns 20 65 ns 0 0.5V V 20 0 35 0.5V 60 V ns 20 35 60 ns 20 35 50 PA 100 150 ns 4 0.9 75 V VCCHX = VCCL = 12V, Measure the time from EAOUT fall crossing VDAC to GATEHX falling to 11V. (Note 1) Common Mode Input Range Internal Ramp Start Voltage Internal Ramp Amplitude 0.45 40 0.7 57 Current Sense Amplifier CSINP1&2 Bias Current CSINM Bias Current Input Current Offset Ratio Average Input Offset Voltage Offset Voltage Mismatch o Gain at TJ = 25 C o Gain at TJ = 125 C Gain Mismatch Differential Input Range Common Mode Input Range -0.5 -1 0.7 -4 -8 22.0 18.5 -0.3 -25 0 -0.2 -0.4 1.7 0 0 23.5 20.0 0 Page 6 of 37 CSINM/CSINPX (VDRP-VDAC)/GAIN withCSINX=0, Note1. Monitor I(SCOMP) 0.1 0.2 2.6 4 8 25.0 24.0 0.3 75 2.8 06/25/04 V mV / %DTC PA PA PA/PA mV mV V/V V/V V/V mV V IR3092 PARAMETER Share Adjust Error Amplifier Input Offset Voltage MAX Duty Cycle Adjust Ratio MIN Duty Cycle Adjust Ratio Transconductance SCOMP Source/Sink Current Equal Duty Cycle Comparator Threshold Duty Cycle Match at Startup SCOMP Precharge Current 0% Duty Cycle Comparator Threshold Voltage Propagation Delay Body Braking Disable Comparator Threshold OVP VR10 Comparator Threshold AMD Comparator Threshold Propagation Delay Source Current Pull Down Resistance High Voltage General VCC Supply Current VOSNS- Current VCCHX Supply Current (12V) VCCHX Supply Current (28V) VCCL Supply Current TEST CONDITION MIN TYP MAX UNIT Note 1 Duty Cycle of GATEH2 to GATEH1 Duty Cycle of GATEH2 to GATEH1 Note 1 -5 1.5 0.6 100 15 0.45 0 2 0.5 200 28 0.7 5 3 0.4 300 40 0.85 mV %/% %/% PA/V PA V DTC GATEH1 – DTC GATEH2 V(SS/DEL)=0 -5 250 0 420 5 600 % PA (Internal Ramp1 Start Voltage) – (0DC Threshold) VCCL = 12V. Step EAOUT from .8V to .3V and measure time to GATELX transition to < 11V. Compare V(FB) to V(VDAC) 100 150 200 mV 200 320 ns 50 80 110 mV VID_SEL=0V. Compare to V(VDAC) Float VID_SEL. Compare to V(VDAC) VCCL = 12V. V(EAOUT)=0V. Step FB 460mV above V(VDAC). Measure time to GATELX transition to >1V. 120 360 145 480 200 180 600 300 mV mV ns 10 20 .8 20 45 1.2 80 1.6 mA kŸ V 23 2 3 5 5 29 3 5 7 10 34 4 7 9 16 mA mA mA mA mA OVP to PGND1 I(OVP)=10mA, V(VCC)-V(OVP) -0.3V ” VOSNS- ” 0.3V, All VID Codes Note 1: Guaranteed by design, but not tested in production Note 2: VDAC Output is trimmed to compensate for Error Amp input offsets errors Page 7 of 37 06/25/04 IR3092 TYPICAL OPERATING CHARACTERISTICS I(VDAC) Sink and Source Currents vs. ROSC 180 80 160 I(VDAC) Source Current 70 I(FB) in uA 140 I(VDAC) Sink Current 60 I(OCSET) in uA 120 100 50 uA uA I(FB) and I(OCSET) Currents vs. ROSC 90 40 80 30 60 20 40 10 20 0 0 10 20 30 40 50 60 70 80 90 100 10 20 30 40 50 60 70 ROSC in Kohms Oscillator Frequency vs. ROSC 550 500 450 400 350 300 250 200 150 100 50 0 90 100 80 90 100 I(SETBIAS) vs. ROSC 250 200 150 100 50 0 10 20 30 40 50 60 70 ROSC in Kohms 80 90 10 100 20 30 40 50 60 70 ROSC in Kohms Peak Gate Drive Current vs. Load Capacitance Frequency and Bias Current Accuracy vs. ROSC (includes temperature) 4.0 6 3.5 4 Frequency 3 FB Bias 2 OCSET Bias SETBIAS I(GATEX) in Amps 5 +/-3 Sigma Variation (%) 80 300 uA Frequency in KHz ROSC in Kohms 3.0 I(RISE) I(FALL) 2.5 c 2.0 1.5 1 0 1.0 10 20 30 40 50 60 ROSC (KOhm) Page 8 of 37 70 80 90 100 1 3.5 6 8.5 11 13.5 16 18.5 C(GATEX) in nF 06/25/04 21 IR3092 TYPICAL OPERATING CHARACTERISTICS Error Amplifier Frequency Response 100 0 -100 93dB DC gain 88° Phase Margin 3.1MHz Crossover -180 1.0Hz 10Hz 100Hz DB(V(comp)) P(V(comp)) Page 9 of 37 1.0KHz 10KHz 100KHz 1.0MHz 10MHz 100MHz Frequency 06/25/04 IR3092 IR3092 THEORY OF OPERATION IOVP OVP ROSC ON 45k UVL VCCH1 IROSC FB EAOUT IROSC IROSC IN - 1.243 OVP Comparator GATEHI1 GateHI QB BB DISABLE COMPARATOR FB OL_IN + - - - + AMD=450mV INTEL=150mV 4.300V START 4.125V STOP VCCL IROSC/2 + - PWRGD GATEHI OL_OUT RSFF UVL 5VUVL R OL_IN Q CLK2 Oscillator 7.8V START 7.3V STOP BIASOUT S + SETBIAS RESET DOMINANT CLK1 + 4 X IROSC 10p PWM COMPARATOR 80mV PGND DRIVE LGND PGND DRIVE VCC IN 0.7V OL_OUT GATELO GATEL1 GateLO VDAC PGND1 0% DUTY CYCLE VDAC + - X25 0.55V - + - - + OFF - VDRP Q R F11111 AMD=1.5V INTEL=0.6V DAC OUT VID4 VID3 VID2 VID0 18uA VOSNS- VID1 ATHLON_DAC OPTERON_DAC IN IROSC FAST DAC GATEHI GATEH2 OL_OUT GateHI PWM COMPARATOR VCCL 4.9V U18 H FORCES IROSC/2 AT SS