92612nk 20120830-s00004/n0211 sy/62911 sy /42809 ms no.a1441-1/10 http://onsemi.com semiconductor components industries, llc, 2013 may, 2013 lv8804fv overview the lv8804fv is a motor driver for pc and server fans. feature ? direct pwm 3-phase sensorless motor driver specifications absolute maximum ratings at ta = 25 c parameter symbol conditions ratings unit v cc maximum supply voltage v cc max 16 v vg maximum supply voltage vg max 21 v out pin maximum output current i out max uo, vo, and wo pins 1.2 a softst pin withstand voltage v softst max 6v fr pin withstand voltage v fr max 6v ctl pin withstand voltage v ctl max 6v minsp pin withstand voltage v minsp max 6v fg output pin withstand voltage v fg max 16 v fg pin maximum output current i fg max 5ma pd max1 independent ic 0.3 w allowable power dissipation pd max2 mounted on specified board * 0.95 w operating temperature topr -30 to +95 c storage temperature tstg -55 to +150 c * specified board: 76.1mm 114.3mm 1.6mm, glass epoxy board (single-layer) caution 1) absolute maximum ratings represent the va lue which cannot be exceeded for any length of time. caution 2) even when the device is used within the range of abso lute maximum ratings, as a result of continuous usage under hig h temperature, high current, high voltage, or drastic temperature change, the reliability of th e ic may be degraded. please contact us for the further detai ls. bi-cmos lsi pc and server fan motor driver orderin g numbe r : ena1441c stresses exceeding maximum ratings may damage the device. maximum ratings are stress ratings only. functional operation above the recommended oper ating conditions is not implied. extended exposure to stresses above the recommended operating conditions may affect device reliabili ty.
lv8804fv no.a1441-2/10 allowable operating conditions at ta = 25 c parameter symbol conditions ratings unit v cc supply voltage v cc 6 to 15 v softst input voltage range v softst 0 to vreg v fr input voltage range v fr 0 to vreg v ctl input voltage range v ctl 0 to vreg v minsp input voltage range v minsp 0 to vreg v electrical characteristics at ta = 25 c, v cc = 12v, unless otherwise specified ratings parameter symbol conditions min typ max unit circuit current 1 i cc 1 3 4 ma charge pump block charge pump output voltage v vg 17 v regulator block 5v regulator voltage v vreg 4.75 5 5.25 v output on resistance high-side output transistor on resistance ron (h) i o = 0.7a, vg = 17v 0.6 1.0 low-side output transistor on resistance ron (l) i o = 0.7a, v cc = 12v 0.6 1.0 sum of high-/low-side output transistor on resistance ron (h+l) i o = 0.7a, v cc = 12v, vg = 17v 1.2 2 startup oscillator (osc) pin osc pin charge current i osc c -2.5 a osc pin discharge current i osc d 2.5 a control voltage input (ctl) pin motor drive on voltage input range v ctl on 0 3 v motor drive off voltage input range v ctl off 3.5 vreg v minimum speed setting pin minimum speed setting voltage input range v minsp 1 1 3 v minimum speed releasing voltage input range v minsp 2 4 vreg v forward/reverse switching pin high-level input voltage range v fr h order of current application : uout vout wout 4 vreg v low-level input voltage range v fr l order of current application : uout wout vout 0 1 v fg output pin fg output pin low-level voltage v fg when i o is 2ma 0.25 0.35 v current limiter circuit limiter voltage v rf limit current set to 1a when rf is 0.25 . 0.225 0.25 0.275 v constraint protection circuit ct pin high-level voltage v ct h 2.25 2.8 2.95 v ct pin low-level voltage v ct l 0.43 0.5 0.65 v ct pin charge current i ct c -2.9 -2.5 -2.2 a ct pin discharge current i ct d 0.23 0.25 0.32 a ict charge/discharge ratio r ct 7 10 13 soft start circuit soft start releasing voltage v softst 2.5 v softst pin charge current i softst 0.6 a thermal protection circuit thermal protection circuit operating temperature tsd design target * 150 180 210 c * : design target value and no measurement is made. the thermal protection circuit is incorporated to protect the ic from burno ut or thermal destruction. since it operates outside the ic's guaranteed operating range, the cust omer's thermal design should be performed so that the thermal protection circuit will not be activated when the fan is running under normal operating conditions.
lv8804fv no.a1441-3/10 package dimensions unit : mm (typ) 3360 pin assignment 16 15 14 13 12 11 20 19 18 17 1 softst 2 fg 3 ct 4 osc 5 gnd 6 vg 7 cp 8 cpc 10 9 rf wo minsp ctl f/r vreg fil comin com v cc uo vo lv8804fv top view sanyo : ssop20j(225mil) 5.2 4.4 6.4 0.5 0.1 (1.3) 1.5 max 0.22 0.15 0.5 (0.35) 12 20 pd max -- ta 0 0.8 0.4 1.2 -30 -20 80 100 60 20 40 0 120 0.42 0.13 0.6 0.2 1.0 0.95 0.3 independent ic thermal resistance evaluation board thermal resistance evaluation board : 76.1 114.3 1.6mm 3 glass epoxy allowable power dissipation, pd max -- w ambient temperature,ta -- c
lv8804fv no.a1441-4/10 block diagram charge pump vreg selector curr lim refosc ctlamp start osc ctosc rd fg pri drive sensorless logic v cc uo vo com wo rf f/r vreg cpo cp ct vg fg ctl ctl minsp vreg vref osc fil comin com softst gnd v cc
lv8804fv no.a1441-5/10 pin function pin no. pin name function equivalent circuit 1 softst soft start time setting. the motor can be started smoothly by connecting a capacitor between this pin and ground. 1 500 vreg 2 fg fg pulse output. this pin outputs a hall sensor system equivalent pulse signal. 2 3 ct motor lockup detection time setting. when the motor lockup condition is detected, the protection time period before the protection circuit is activated is set by connecting a capacitor between this pin and ground. 3 500 vreg 4 osc motor startup frequency setting. a capacitor must be connected between this pin and ground. the startup frequency is adjusted by controlling the charge/discharge current and capacitance of the capacitor. 4 500 vreg 500 5 gnd gnd pin. 6 vg charge pump step-up voltage output. a capacitor must be connected between this pin and the v cc pin or ground. 7 cp charge pump step-up pulse output pin. a capacitor must be connected between this pin and the cpc pin (pin 14). 8 cpc charge pump step-up pin. a capacitor must be connected between this pin and the cp pin (pin 13). 7 vreg 6 8 v cc 13 v cc power supply for the ic and motor. capacitors must be connected between these pins and ground. 12 11 10 uo vo wo output pins. connect these pins to the u, v, and w of the motor coil. 9 rf output current detection pins. the drive current is detected by connecting a resistor between these pins and ground. 13 9 10 11 12 continued on next page.
lv8804fv no.a1441-6/10 continued from preceding page. pin no. pin name function equivalent circuit 14 com motor middle point connection. 15 comin motor position detection comparator filter pin. a capacitor must be connected between this pin and the fil pin (pin 16). 16 fil motor position detection comparator filter pin. a capacitor must be connected between this pin and the comin pin (pin 15). vg 14 15 16 17 vreg regulator voltage (5v) output. a capacitor must be connected between these pins and ground. v cc 17 vreg 18 f/r motor rotation direction switching. a high-level input causes current to flow into the motor in the order of u, v, and w and a low-level input in the order of u, w, and v. changing the order of current application turns the motor in the opposite direction. 18 15k 100k vreg reverse signal forward signal forward/reverse switching signal 19 ctl motor control voltage input. when the control voltage is higher than 3v (3v < ctl voltage), the motor stops. the motor speed is controlled by varying the control voltage within the range of 3v to 1v (3v > ctl voltage > 1v). when the control voltage becomes lower that 1v (1v > ctl voltage), the current limit set by the rf resistor is reached. 20 minsp minimum speed setting voltage input. the minimum speed of the motor can be set by resistor-dividing the regulator voltage and feeding the resultant voltage that is within the range of 1v to 3v (1 v < minsp < 3v). 19 500 vreg 20 500
lv8804fv no.a1441-7/10 lv8804fv functional description 1. control characteristics when rf = 0.25 irf 1a 0v 1v 2v 3v 4v vctl the gradient and limit current are determined by the resistance of the rf pin. minimum speed this minimum speed is determined by the minsp pin voltage. 0.5a the current flowing to the motor and the control characteris tics are determined by adjust ing the resistance of the rf resistor. by connecting a resistor w ith a resistance of 0.25 between the rf pin and gnd, the limit current is set at a motor current of 1a, and th e control characteristics shown in the diagram above are achieved. by increasing the rf resistance, the limit current is reduced; conversely, by reducing the rf resistance, the limit current is increased. since i o max. is 1.2a, the rf resistance must be set in such a way that the current flowing to the motor does not exceed this maximum value. by varying the ctl voltage between 1v and 3v, the current flowing to the output is limited. pwm control is exercised within the voltage range above (1v to 3v) to control the motor speed. when the ctl voltage is less than 1v, the current limiter value determined by the rf resistance is reached, and the motor speed is limited. when the ctl voltage is greater than 3v, pwm is reduced to 0%, and the motor stops. (however, the motor does not stop if the minimum speed has been set.) the minimum speed can be set by resistor-dividing the reg voltage (5v) to create a voltage of 1v to 3v, and inputting this voltage to the minsp pin. if the minimum speed is not going to be set, the minsp pin and ctl pin (pin 8) must be short-circuited. 2. timing at startup (soft start) v cc pin ctl pin stop soft start full speed stop full speed softs pin the gradient changes in accordance with the capacitance of the softst pin. (the higher the capacitance, the steeper the gradient.)
lv8804fv no.a1441-8/10 application circuit example uo vo wo v cc com comin vg cp cpc vreg minsp *9 ctl f/r fil *4 fg pwm *2 ct softst osc gnd 1000pf *8 *7 *5 *1 rf *6 *12 *3 fg *13 *1. power supply and gnd wiring the gnd is connected to the control circuit power supply system. *2. power-side power stabilization capacitor for the power-side power stabilizati on capacitor, use a capacitor of 10 f or more. connect the capacitor between v cc and gnd with a thick and along the shortest possible route. lv8804fv uses synchronous rectification for high efficiency drive. synchronous rectification is effective for heat reduction and higher efficiency. howe ver, it may increase supply voltage. if the supply voltage shall increase, make sure that it does not exceed the maximum ratings by inserting a zener diode between power supply and gnd. *3. reverse connection protection diode this diode protects reverse connection. insert a diode between power supply and v cc pin to protect the ic from destruction due to reverse connection. connection of this diode is not necessary required. *4. comin and fil pins these pins are used to connect the filter capacitor. th e lv8804fv uses the back emf signal generated when the motor is running to detect the information on the rotor position. the ic determines the timing at which the output block applies current to the motor based on the position information obtained here. insert a filter capacitor (1,000pf to 10,000pf) between the comin pin and fil pin to prevent any motor startup miss-operation that is caused by noise. however, care must be taken since an excessively high capa citance will give rise to deterioration in efficiency and delays in the output power-on timing while the motor is running at high speed. furthermore, connect the capacitor between the comin pin and fil pin as close as possible in order to avoid the effects of noise from other sources. *5. ct pin this pin is used to connect the lock detection capacitor. the constant-current charging and constant-current discharging circuits incorporated causes locking when the pin voltage reaches 2.5v, and releasing the lock protection when it drops to 0.5v. this pin must be connected to the gnd when it is not going to be used.
lv8804fv no.a1441-9/10 *6. rf pins these pins are used to set the current limit. when the pin voltage exceeds 0.25v, the cu rrent is limited, and regeneration mode is established. in the application circuit, this voltage is set in such a way that the current limit will be established at 1a. the calculation formula is given below. rf resistance = 0.25v/ta rget current limit value *7. softst pin this pin is used to set the soft start. by connecting a capacitor between this pin and gnd , the motor speed can be increased gradually. when the pin voltage exceeds 2.5v, the soft start is re leased, and the lv8804fv is switched to normal control. if the soft start function is not going to be used, connect the pin to the vreg pin. *8. osc pin this pin is used to connect the capacitor for setting the startup frequency. a capacitor with a capacitance ranging from about 500pf to 2,200pf (recommended value) must be connected between this pin and gnd. the osc pin determines the motor startup frequency, so be sure to connect a capacitor to it. select a capacitance value that will result in the shortest possible startup time for achieving the target speed and produce minimal variations in the startup time. if the capacitance is too high, variations in the startup time will increase; conversely, if it is too low, the motor may idle. the optimum osc constant depends on the motor characteristics and startup current, so be sure to recheck them when the type of motor used or circuit specifications are changed. *9. minsp pin this pin is used to input the voltage to set the minimum speed. the minimum speed can be set by resistor-dividing the vreg voltage (5v) to create a voltage of 1 to 3v, and inputting this voltage to the minsp pin. if the minimum speed is not going to be set, the minsp pin and ctl pin must be short-circuited. *10. vg, cp, and cpc pins these pins are used to connect the capacitors to genera te the pre-drive voltage and stabilize the pre-drive power supply. be sure to connect these capacitors in order to generate the drive voltage for the high-side (upper) output dmos transistor. *11. vreg pins these are the control system power supply pin and regulator output pin, which create the power supply of the control unit. be sure to connect a capacitor between this pin and gnd in order to stabilize control system operation. since these pins are used to supply curr ent for control and generate the charge pump voltage, connect a capacitor with a capacitance that is higher th an that of the capacitor connected to the charge pump. *12. ctl pins change by the slew rate of 0.5v/ms or more and use the voltage of the ctl pin. the current might return to the power supply when using it below the above-mentioned slew rate and ic be destroyed. *13. pin protection resistor it is recommended that resistors higher than 1k ? are connected serially to protect pins against misconnection such as gnd open and reverse connection.
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