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| FEATURES * LOW COST 3 PHASE INTELLIGENT SWITCHING AMPLIFIER * 3 FULLY PROTECTED HALF BRIDGES * UP TO 60V SUPPLY * OUTPUT CURRENT - 5 AMPS (CONT) PER HALF BRIDGE * NO "SHOOT THROUGH" CURRENT APPLICATIONS * 3 PHASE BRUSHLESS DC MOTORS * 3 INDEPENDENT SOLENOID ACTUATORS DESCRIPTION The SA305 is an integrated, fully protected, 3 phase brushless DC motor driver IC. Three independent half bridges provide up to 5A of continuous (10A peak) output current under microcontroller or DSP control. Thermal, short circuit, shoot through, and over current protection are included in this power device. Fault status indication and current level monitors are provided directly to the controller. The SA305 is built using a multi-technology process allowing CMOS logic control and DMOS output power devices on the same IC. Output current is measured using an innovative low loss technique. The SIP package offers superior thermal performance with a flexible footprint. 23 PIN SIP PACKAGE STYLE EX TYPICAL APPLICATION EXTERNAL CONNECTIONS The SA305 offers a level of power integration unmatched by others in the field of fractional HP brushless motor control. BLOCK DIAGRAM P R L E M I N I A R Y APEX MICROTECHNOLOGY CORPORATION * TELEPHONE (520) 690-8600 * FAX (520) 888-3329 * ORDERS (520) 690-8601 * EMAIL prodlit@apexmicrotech.com 1 SA305 PIN DESCRIPTIONS PIN DESCRIPTIONS Pin # 10,21 17 22 13 2 1,23 11 19 18 8 Pin name Vs/VPWR Vdd OutA OutB OutC PGND SGND DISABLE Warning FAULT 16 15 12 14 7 5 20 3 4 9 PWM_HA PWM_LA PWM_HB PWM_LB PWM_HC PWM_LC IMON_A IMON_B IMON_C OFF All inputs are CMOS levels. Inputs can accept CMOS levels as low as 3.3 volts P Description High voltage supply (12V-60V) Logic supply (5V) Half bridge output Half bridge output Half bridge output Power ground, high current ground return path of the bridge outputs Analog and logic circuits ground Disable logic Input, CMOS. When high disables all six output MOSFETs independent of the Control registers. Output pin goes high at Tj > 135C. The Fault output is raised under the following conditions: a) Short-Circuit and Over Current condition. b) High Temperature condition. c) High Voltage Supply Vs < 12V. This can be used as an interrupt to the microcontroller. It will be reset after status data has been read by the microcontroller. A FAULT will also disable the outputs of the device. goes high in order to indicate the Pchannel of output A is to be turned on. goes high in order to indicate the Nchannel of output A is to be turned on. goes high in order to indicate the Pchannel of output B is to be turned on. goes high in order to indicate the Nchannel of output B is to be turned on. goes high in order to indicate the Pchannel of output C is to be turned on. goes high in order to indicate the Nchannel of output C is to be turned on. Current monitor output, approximate current 1/4000 of Phase A current Current monitor output, approximate current 1/3600 of Phase B current Current monitor output, approximate current 1/3700 of Phase C current Disables all Fault Mechanisms when pulled HIGH R L E M I N I A R Y APEX MICROTECHNOLOGY CORPORATION * 5980 NORTH SHANNON ROAD * TUCSON, ARIZONA 85741 * USA * APPLICATIONS HOTLINE: 1 (800) 546-2739 2 ABSOLUTE MAXIMUM RATINGS SPECIFICATIONS SA305 SUPPLY VOLTAGE, +Vs SUPPLY VOLTAGE, Vcc OUTPUT CURRENT, peak, 200ms POWER DISSIPATION, internal, DC TEMPERATURE, pin solder, 10s TEMPERATURE, junction2 TEMPERATURE RANGE, storage OPERATING TEMPERATURE, case 60V 5.5V 10A TBD 225C. 150C. -55 to 125C. -40 to 85C. ABSOLUTE MAXIMUM RATINGS SPECIFICATIONS PARAMETER INPUTS Logic Low Voltage Logic High Voltage POWERSUPPLY Vs Vcc Supply Current, Vpwr Supply Current, Vdd TESTCONDITIONS MIN TYP MAX 1 UNITS V V V V mA mA 1.8 12 4.5 10 KHz (One channel switching at 50% duty cycle), VPWR=50V, Vdd=5V 10 KHz (One channel switching at 50% duty cycle), VPWR=50V, Vdd=5V Iout = 1A to 5A Iout = 100mA to 5A 8.5 ANALOG Current Sense Linearity Current Sense Linearity OUTPUT Output Current, continuous Output Current, Peak Turn on delay, default Turn off delay, default Switching time, on, default Switching time, off, default On resistance, PCHAN FET On resistance, NCHAN FET Short circuit turn off time Thermal Shutdown Thermal Warning Overcurrent Shutdown THERMAL RESISTANCE, junction to case RESISTANCE, junction to air TEMPERATURE RANGE, case For 200ms 5A Load (Room Temperature) 5A Load (Room Temperature) NOTES: 1. Unless otherwise noted: TC=25C, power supply voltage is typical rating. (VPWR = 50 V, Vdd = 5V). 2. Long term operation at the maximum junction temperature will result in reduced product life. De-rate internal power dissipation to achieve high MTBF. P R L E Full temperature range Full temperature range M I N I 155 10 -40 A 0.6 183 240 47 52 325 250 TBD 160 135 12 0.95 4 R 60 5.5 35 6 Y 1.5 5 5 10 % % A A nS nS nS nS m m nS C C A C/W C/W C 600 600 TBD TBD 85 APEX MICROTECHNOLOGY CORPORATION * TELEPHONE (520) 690-8600 * FAX (520) 888-3329 * ORDERS (520) 690-8601 * EMAIL prodlit@apexmicrotech.com 3 SA305 TYPICAL PERFORMANCE GRAPHS P 4 R L E M I N I A R Y APEX MICROTECHNOLOGY CORPORATION * 5980 NORTH SHANNON ROAD * TUCSON, ARIZONA 85741 * USA * APPLICATIONS HOTLINE: 1 (800) 546-2739 TYPICAL PERFORMANCE GRAPHS SA305 P R L E M I N I A R Y APEX MICROTECHNOLOGY CORPORATION * TELEPHONE (520) 690-8600 * FAX (520) 888-3329 * ORDERS (520) 690-8601 * EMAIL prodlit@apexmicrotech.com 5 SA305 GENERAL Please read Apex Application Note 1 "General Operating Considerations" which covers stability, power supplies, heat sinking, mounting, current limit, SOA interpretation, and specification interpretation. Visit www.apexmicrotech.com for design tools that help automate tasks such as calculations for stability, internal power dissipation, current limit, heat sink selection, Apex's complete Application Notes library, Technical Seminar Workbook and Evaluation Kits. OPERATING CONSIDERATIONS cal parasitic oscillation in the output stage of the SA305. Use electrolytic capacitors at least 10F per output amp required. Bypass the electrolytic capacitors with high quality ceramic capacitors (X7R) 0.1F or greater. See the external connections diagram on page 1. CURRENT SENSE The current of each phase can be read using the IMON output pins. The high side of each half bridge current is monitored separately. The current sense output level is as follows: CHANNEL A: 1/4000th of the phase current. CHANNEL B: 1/3600th of the phase current. CHANNEL C: 1/3700th of the phase current. External power current sense resistors are not required with the SA305. However, in order to read the current level using a standard A/D input a resistor of 1K should be shunted across each output. A standard 1/4W resistor is sufficient here. Motor current adjustments are made through the PWM inputs. Above the internal limit the device self-protects. GROUND PINS Analog and Power Grounds should be connected externally at only one point on the motor control board in such a way that there is no current flow through the connection to avoid noise related issues. PROTECTION Each of the six output devices includes short circuit protection to prevent damage from direct shorts to GND or VS. The SA305 is protected against overheating with built in thermal monitoring. The thermal protection will engage when the temperature of the MOSFETs reach approximately 160C. The FAULT output pin will latch "HIGH" if either protection circuits engages and will place all MOSFETs in the "OFF" state (high impedance output). The most severe condition for any power device is a direct, hard-wired ("screwdriver") short from an output to ground. While the short circuit protection will latch the output MOSFETs the die and package may be required to dissipate up to 500 Watts of power until the protection is engaged. This energy can be destructive, particularly at higher operating voltages, so good thermal design is critical if such fault tolerance is required of the system. The Vs and PGND pins may become very hot during this period of high current. The SA305 has an internal FAULT latch mechanism by which the device stays disabled (in case a fault occurs) unless the user resets it. If the SA305 goes into FAULT condition because of short-circuit, over current or high temperature, the DISABLE pin needs to be pulled HIGH (briefly) to reset the SA305 and resume normal operation. However, before resetting the SA305 the user has to ensure that the FAULT has been eliminated. Undervoltage lockout is not required since the power stage is complimentary and does not need a charge pump to activate the high side FETs. A True signal on the FAULT pin indicates that at least one of these protection events has occurred. Once a FAULT has occurred, fault condition must be removed in order for the FAULT signal to be removed. SA305 OPERATION CONTROL Each output device is controlled by a single input. There is a provision inside the SA305 to prevent the upper and lower FET of the same channel from being active at the same time even though the input controls request that both the N and P devices from half bridges be on. POWER SUPPLY BYPASSING Bypass capacitors to power supply terminals +Vs and -Vs must be connected physically close to the pins to prevent lo- P R L E M I The SA305 is used to drive three phase motors but can be used where ever three high current outputs are required. A DSP or microcontroller is used to control and monitor the operation of the SA305. The current through each of the three P channel drive transistors is monitored by on-board circuitry. Current is set using the PWM inputs which drive each FET independently. Once the desired level is reached the inductance of the motor keeps the current near the programmed level. Should the current get to the internally set 12A level, the driver is shutoff to protect itself. Whenever there are no "fault" conditions and the input controls indicate an output should be on, the P and N drivers will turn on. If the input controls are requiring that P-channel turn on before the N-channel turns off, the SA305 will automatically delay the P-channel turn on. The time between the N turning off and the P turning on or the P channel turning off and the N channel turning on is called dead time. An internally set minimum dead time assures no "shoot through" current and gives the clamp diode time to discharge. The warning temperature setting is fixed at Tj= 135C. When the junction temperature gets to the programmed point, the temperature warning bit will be set. It will be reset when the temperature falls below the programmed limit. The Fault temperature setting is fixed at Tj= 160C. Once the Fault temperature has been reached the Fault Output goes high and the outputs of the device are disabled. This output can be used as a microcontroller interrupt. The Fault latch will not be reset until the temperature is below the fault temperature setting. If more than one output is required to be conducting large currents at the same time, the maximum current will need to be de-rated. N I A R Y This data sheet has been carefully checked and is believed to be reliable, SHANNON ROAD * is assumed ARIZONA 85741 * omissions. All specifications are subject 1 (800) 546-2739 APEX MICROTECHNOLOGY CORPORATION * 5980 NORTH however, no responsibility TUCSON, for possible inaccuracies orUSA * APPLICATIONS HOTLINE: to change without notice. 6 SA305U REV 3 FEBRUARY 2006 (c) 2006 Apex Microtechnology Corp. |
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