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| november 2010 ? 2010 fairchild semiconductor corporation www.fairchildsemi.com fcm8202 ? rev. 1.0.0 fcm8202 ? 3-phase sinusoidal brushless dc motor controller fcm8202 3-phase sinusoidal brushless dc motor controller features �? supports space vector modulation (svm) �? supports sine-wave & square-wave solutions �? built-in clock generator �? built-in error amplifier for torque loop control �? direct duty control �? square-wave 120, sine-wave 180 turn-on �? pll angle detection (hall sensors) �? current leading phase correction �? two selectable dead times �? synchronous rectifying �? over-voltage and under-voltage protections �? motor and power transistors for over-voltage protections (ovp) �? three levels of over-current protections (ocp) �? adjustable oc timer �? over-temperature protection (otp) applications �? bldc motor control �? low noise motor applications �? fan, pump, tools, etc. description fcm8202 is a three-phase sinusoidal brushless (bldc) motor controller with the advanced hall sensor design. using the hall sensor signals, the control system is able to execute the pwm commutation by switching the three-phase inverter. there are two pwm modes: sine- wave mode and square-wave mode. the square- wave mode includes pwm-pwm and pwm-on approaches to improve the efficiency of the motor drive. complete protection functions including over-voltage, over-current, over-temper ature, and short-circuit protections prevent the control circuits and the motor from being damaged, particularly under stressed applications and demanding environments. ordering information part number operating temperature range package packing method FCM8202QY -40c to 85c 32-pin, leadless quad flat pack package (lqfp), jedec ms-026, variation bce, 7mm square tray
? 2010 fairchild semiconductor corporation www.fairchildsemi.com fcm8202 ? rev. 1.0.0 2 fcm8202 ? 3-phase sinusoidal brushless dc motor controller typical application circuit figure 1. typical application circuit block diagram figure 2. system block diagram ? 2010 fairchild semiconductor corporation www.fairchildsemi.com fcm8202 ? rev. 1.0.0 3 fcm8202 ? 3-phase sinusoidal brushless dc motor controller marking information figure 3. top mark pin configuration figure 4. pin configuration f - fairchild logo z- plant code x- 1-digit year code y- 1-digit week code tt: 2-digit die run code t: package type (q=lqfp) p: y=green package m: die run code ? 2010 fairchild semiconductor corporation www.fairchildsemi.com fcm8202 ? rev. 1.0.0 4 fcm8202 ? 3-phase sinusoidal brushless dc motor controller pin definitions pin # name description 1 hovp motor drive over-voltage protection output. can be connected to an external power transistor for discharging the back-emf. 2 ha hall a sensor input. phase- u magnetic field detection. 3 hb hall b sensor input. phase- v magnetic field detection. 4 hc hall c sensor input. phase-w magnetic field detection. 5 cw/ccw direction control input. this pin has a 200k ? internal pull-up. high: cw, low: ccw. 6 free/nst free and start control input. this pin has a 200k ? internal pull-up. high: free, low: start. 7 aprs angle predict range selection input. this pin has a 200k ? internal pull-up. low: 0.8 ~ 80hz, high: 3.2 ~ 320hz hall frequency. 8 dts dead-time selection input. this pin has a 200k ? internal pull-up. low: 3s, high: 4s. 9 fo revolution pulse output. pulses per revolution = motor poles 2 3. 10 dgnd digital ground 11 vout voltage regulator output. a 0.1f (minimum) capacitor should be connected between this pin and ground. 12 ip positive input of torque error amplifier 13 opo output of torque error amplifier 14 in negative input of torque error amplifier 15 i_fb current feedback output 16 duty pwm duty control input. designed to directly control the pwm duty cycle. 17 r_clk external resistor of clock generator. de signed for determining the frequency of internal clock generator. 18 agnd analog ground 19 i_in current feedback input 20 as angle shift input. designed for correcting the lead angle of pwm output signals. the range is from 0 to 60 related to the induced magnetic voltage. 21 vsense motor drive voltage-sensing resistor. designed for determining the voltage level of over- voltage protections. 22 rt thermistor voltage input. connect to a negative temperature coefficient (ntc) thermistor for the over-temperature protection. 23 oc_tmr overload time-out programmable input. connect to a capacitor for determining the time delay of overload protection. 24 nfault fault flag. open-drain output, low: system failure. 25 vpp supply voltage input 26 z pwm output of w-phase, low-side 27 w pwm output of w-phase, high-side 28 y pwm output of v-phase, low-side 29 v pwm output of v-phase, high-side 30 x pwm output of u-phase, low-side 31 u pwm output of u-phase, high-side 32 pgnd high-voltage ground ? 2010 fairchild semiconductor corporation www.fairchildsemi.com fcm8202 ? rev. 1.0.0 5 fcm8202 ? 3-phase sinusoidal brushless dc motor controller 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. symbol parameter min. max. unit v pp supply voltage 0 30 v esd electrostatic discharge protection level human body model, jesd22-a114 2.50 kv charged device model, jesd22-c101 1.25 recommended operating conditions the recommended operating conditions table defines the conditions for actual device operation. recommended operating conditions are specified to ens ure optimal performance to the datasheet specifications. fairchild does not recommend exceeding them or designing to absolute maximum ratings. symbol parameter min. typ. max. unit t a operating ambient temperature -40 +85 c v pp supply voltage 10.0 12.0 17.5 v f sys system clock 0.96 1.28 1.92 mhz r_clk clock generator external resistor 12 k ? r i_in i_in bias resistor 10 k ? ? 2010 fairchild semiconductor corporation www.fairchildsemi.com fcm8202 ? rev. 1.0.0 6 fcm8202 ? 3-phase sinusoidal brushless dc motor controller electrical characteristics v pp =12v and t a =25c unless otherwise noted. symbol parameter conditions min. typ. max. units v pp section v pp_on turn-on threshold voltage 8.5 9.0 9.5 v v pp_off turn-off threshold voltage 7.5 8.0 8.5 v i dd_op operating supply current v pp =12v, f sys =1.28mhz 4.0 5.0 6.5 ma voltage regulator section v vout regulator output voltage output current 5ma 5.0 5.2 5.5 v i vout regulator output current v vout =5.2v 10 ma c vout regulator external capacitor 0.1 f digital i/o section v ih_hall hall signals input high-level 4.0 v v il_hall hall signals input low-level 1.0 v v hys_hall hall signals hysteresis voltage 2.0 2.5 3.0 v t deb_hall hall signals de-bounce time 5 s r dio_up digital i/o internal pull high resistor 150 200 250 k high-voltage i/o section v oh_pwm pwm signals output high-level (u/v/w/x/y/z) v pp =12v, i o =4ma 10 v v ol_pwm pwm signals output low-level (u/v/w/x/y/z) v pp =12v, i o =4ma 1 v v oh_hovp hovp output high-level v pp =12v, i o =1ma 10 v v ol_hovp hovp output low-level v pp =12v, i o =1ma 1 v pwm control section v fd full duty voltage of duty pin 4.1 4.5 4.6 v v zd zero duty voltage of duty pin 0.7 v t pwm_min pwm minimum on time r_clk=12k ? 1 s t dead0 pwm dead time 3s dts=low 2.5 3.0 3.5 s t dead1 pwm dead time 4s dts=high 3.5 4.0 4.5 s f pwm_20k pwm frequency 20khz r_clk=12k ? 18.5 20.0 21.5 khz i source_opo current source capability of opo pin ip =5v, in=0v, opo=0v 4.5 5.0 5.5 ma i sink_opo current sink capability of opo pin ip=0v, in=5v, opo=5v -4.5 -5.0 -5.5 ma av err gain of torque error amplifier 60 db gbw err unit-gain bandwidth of torque error amplifier 10 mhz sine wave pwm generator v sin_ena sine wave enable threshold of duty pin 0.75 v v sin_dis sine wave disable threshold of duty pin 0.65 v t sin_ena sine wave enable debounce time 1 ms t sin_dis sine wave disable debounce time 100 ms continued on the following page... ? 2010 fairchild semiconductor corporation www.fairchildsemi.com fcm8202 ? rev. 1.0.0 7 fcm8202 ? 3-phase sinusoidal brushless dc motor controller electrical characteristics (continued) v pp =12v and t a =25c unless otherwise noted. symbol parameter conditions min. typ. max. units over-current protection section v ocp_sh short-circuit current protection threshold voltage 2.5 v v ocp_cyc cycle-by-cycle current protection threshold voltage 1.5 v v ocp_ol overload current protection threshold voltage 1.4 v v oc_tmr oc_tmr threshold voltage 2.5 v i tmr_chg oc_tmr charge current oc_tmr=0v 30 40 50 a i tmr_dis oc_tmr discharge current oc_tmr=5v 5 10 15 a i bias_i_in bias current of i_in r i_in =10k ? 40 50 60 a i o_i_fb i_fb output current 0.5 ma g i_fb i_fb output gain 8 over- / under-voltage protection (ovp/uvp) section v ov_vpp system ovp threshold voltage 18 v v ov_vpp_rls system ovp release voltage 17 v t ov_vpp system ovp debounce time 100 s v uv_vpp system uvp threshold voltage 7.5 8.0 8.5 v v uv_vpp_rls system uvp release voltage 8.5 9.0 9.5 v v uv_vout v out uvp threshold voltage 4 v v uv_vout_rls v out uvp release voltage 4.5 v v ov_motor motor drive voltage ovp threshold voltage 4.3 4.5 4.8 v v rl_motor motor drive voltage ovp release voltage 4.0 v over-temperature protection (otp) section v rt otp threshold voltage 0.9 1.0 1.1 v v rt_rls otp release voltage 1.15 1.20 1.25 v i rt rt pin source current 40 50 60 a pin open / short protection section v short pin short protection level r_clk pin 0.2 v v open pin open protection level r_clk and rt pins 4.6 4.8 5.2 v ? 2010 fairchild semiconductor corporation www.fairchildsemi.com fcm8202 ? rev. 1.0.0 8 fcm8202 ? 3-phase sinusoidal brushless dc motor controller typical performance characteristics figure 5. pwm-full duty voltage (v fd ) vs. temperature figure 6. pwm zero-duty voltage (v zd ) vs. temperature figure 7. pwm frequency 20khz (f pwm_20k ) vs. temperature figure 8. pwm dead time 3s (t dead0 ) vs. temperature figure 9. opo current source (i source_opo ) vs. temperature figure 10. opo current sink (i sink_opo ) vs. temperature ? 2010 fairchild semiconductor corporation www.fairchildsemi.com fcm8202 ? rev. 1.0.0 9 fcm8202 ? sine wave drive brushless dc motor controller design specification typical performance characteristics (continued) figure 11. i_in bias current (i bias_i_in ) vs. temperature figure 12. rt current source (i rt ) vs. temperature figure 13. otp threshold voltage (v rt ) vs. temperature figure 14. motor ovp threshold voltage (v ov_motor ) vs. temperature figure 15. v pp turn-on threshold voltage (v pp_on ) vs. temperature figure 16. v pp turn-off threshold voltage (v pp_off ) vs. temperature ? 2010 fairchild semiconductor corporation www.fairchildsemi.com fcm8202 ? rev. 1.0.0 10 fcm8202 ? sine wave drive brushless dc motor controller design specification functional description power management and regulator fcm8202 can be operated in a wide input voltage (v pp ) range from 10v to 17.5v. the vout pin is the output terminal of an internal voltage regulator. the typical output voltage ranges between 5.0v and 5.2v. to stabilize the v out circuit, an external capacitor must be connected closely between this terminal and the ground. if the v pp voltage is lower than 8v threshold, the fcm8202 is shut-down and all the internal registers are reset. clock generator fcm8202 comes with a programmable oscillator. being determined by an externally added resistor, the system clock, r_clk, can be programmed from 960khz to 1920khz. the switching frequency of the pwm signal is equal to 1/64 (divided by 64) of the system clock. therefore, when the system clock is configured as 960khz, pwm is 960khz / 64 = 15khz. similarly, if a 20khz pwm is intended, the system clock should be set as 1.28mhz. pwm commutation fcm8202 supports both square-wave pwm and sine- wave pwm for the bldc motor control. the controller comes with the hall-sensor design used to align the rotor position of the motor. for square-wave mode, the pwm output commutation is shown at table 1. table 1. square wave commutation cw hall hall u-v-w x-y-z x 000 0 0-0-0 0-0-0 x 111 7 0-0-0 0-0-0 1 001 1 p-0-0 pb-1-0 1 011 3 0-0-p 0-1-pb 1 010 2 0-0-p 1-0-pb 1 110 6 0-p-0 1-pb-0 1 100 4 0-p-0 0-pb-1 1 101 5 p-0-0 pb-0-1 0 101 5 0-0-p 1-0-pb 0 100 4 0-0-p 0-1-pb 0 110 6 p-0-0 pb-1-0 0 010 2 p-0-0 pb-0-1 0 011 3 0-p-0 0-pb-1 0 001 1 0-p-0 1-pb-0 note: 1. p= pwm, pb= pwm inverse. 2. x= don?t care. hall signals input fcm8202 provides a 3~6s debounce time for each hall signal input to reduce the glitch of the hall signals. when the transition of the hall signal is slow, a glitch might be produced and an error follow. through a built- in hall signal debounce circuit, fcm8202 minimizes the risk of the glitches and related errors. pwm duty cycle and operation the pwm duty is proportional to the voltage levels on the opo pin and duty pin. a free/nst pin is utilized to enable the pwm signals. when free/nst pin is set as logic high, the pwm state is in free mode and all pwm outputs (u, v, w, x, y, z pins) are logic low. once the free/nst pin goes logic low, the fcm8202 starts operating the pwm. sine-wave generator fcm8202 includes space vector modulation (svm) for the sine-wave pwm. an angle-detect circuit phase- locks the rotor position using the hall signals of the motor. the resolution is 32 steps per 60. through the pwm operation, the motor current of each phase is sine-wave. the angle shift between each phase is 120. figure 17. sine-wave output at cw=1 ? 2010 fairchild semiconductor corporation www.fairchildsemi.com fcm8202 ? rev. 1.0.0 11 fcm8202 ? sine wave drive brushless dc motor controller design specification figure 18. sine-wave output at cw=0 current feedback and protections the current feedback circuit performs two major functions: (1) for generating a current feedback signal for the motor control (2) for the over-current protection. the i_in pin outputs 50a current to provide a dc bias on the i_in terminal to prevent a negative voltage. equation 1 shows the i_fb and the i_in. a 0.5v dc bias on i_in is recommended. the maximum average current signal is 1v. by using these parameters, the maximum i_fb signal swing is 0.5v~4.5v. ) ( ) 8 ( _ _ _ bias in i bias s fb i r i v v + = (1) figure 19. current feedback flow fcm8202 provides three levels of over-current protection (ocp). the first level is 1.4v, is used for overload current protection with the ocp timer delay. if the i_in is higher than 1.4v, the oc timer is triggered. the oc_latch is enabled once the timer is exceeds its time-out limit. the second level is 1.5v, used for the cycle-by-cycle current limit. the pwm signal is turned off immediately when the i_in is > 1.5v. the third level is 2.5v, designed for short-circ uit protection. if the i_in is > 2.5v for over three pwm pulses, all pwm outputs (u, v, w, x, y, z pins) are turned off. protections and faults table 2. faults table type state trigger release v pp ov free v pp > 18v v pp < 17v v pp uv free, reset v pp < 8v v pp > 9v v out uv free v out < 4v v out > 4.5v rt free r t < 1.0v r t > 1.2v os free open and short free/nst � hall error free hall = 000 or 111 hovp free v sense > 4.5v v sense < 4.0v oc_latch free i_in > 1.4v free/nst � short free i_in > 2.5v free/nst � ? 2010 fairchild semiconductor corporation www.fairchildsemi.com fcm8202 ? rev. 1.0.0 12 fcm8202 ? sine wave drive brushless dc motor controller design specification physical dimensions a) conforms to jedec ms-026 variation bba b) all dimensions in millimeters. c) dimensioning and tolerancing per asme y14.5m-1994. e) dimensions are exclusive of burrs, mold flash, and tie bar protrusions. f) landpattern standard: qfp80p900x900x160-32bm. g) drawing file name: mkt-vbe32arev2 notes: 1.0 0.75 0.45 0.20 min 0.25 gage plane 0.15 0.05 7.1 6.9 1.6 max r0.08 min 12 top & bottom 1.45 1.35 see detail a detail a side view top view pin #1 ident 9.0 1 8 9 16 17 24 25 32 land pattern recommendation 8.70 8.70 0.45 1.80 0.80 7.0 d c seating plane 0.10 c b a 9.0 7.0 0.45 0.30 0.20 ca-bd 0.8 32x 32x 0.20 c a-b d all leadtips r0.08-0.20 figure 20. 32-pin, leadless quad flat pack package (lqfp) 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 ver ify or obtain the most recent revision. package specifications do not expand the terms of fairchild?s worldwide terms and condition s, 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/packaging/. ? 2010 fairchild semiconductor corporation www.fairchildsemi.com fcm8202 ? rev. 1.0.0 13 fcm8202 ? sine wave drive brushless dc motor controller design specification |
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