4-channel actuator driver m5 6 7 5 9 fp /afp mitsubishi des cri pt i o n the m56759 is a semiconductor integrated circuit designed for a cd-rom actuator driver. this device can function 4-channel- actuators by 1 chip due to include 4 channel btl drivers. three channels of this device, ch1, ch2 and ch3 can be controlled by pwm pulse. two of them, ch1 and ch2 can also act in t h e current control mode. furthermore, this device includes two mute circuits and t s d function. f e at ures l low saturation voltage (at bootstrap). l (typical 0.7v at load current 500ma) l wide supply voltage range. (4.5v to 13.2v) l low cross-over distortion. l two naked operational amplifiers l divided motor power supplies into three parts app l i cat i o n cd-rom b l oc k d ia gr a m pi n c o n f i g urat i o n ( to p v i e w ) outline 42p2r-d 42 39 40 41 1 4 3 2 38 5 37 6 34 9 33 10 32 11 31 12 13 14 30 29 7 8 36 35 15 28 16 27 17 26 18 25 19 20 24 23 21 22 m5 6759f p / a f p out3 vm3 ( - ) vm3 ( + ) gnd in3- vref0 in3+ vm3 vref op1+ op2- vcc2 op2+ in4b- vm2 op1out op1- in4a- vm4 ( - ) vm4 ( + ) sout2 sin2- gnd in2+ vm2 ( - ) vm2 ( + ) out2 in2- vcc1 mute2 mute1 in1- in1+ op2out sin1- vm1 sout1 vm1 ( - ) out1 vm1 ( + ) 24 25 27 28 29 30 31 34 35 36 37 38 39 40 mute1 tsd gnd (4pin) 1ch in1+ + - - + ch3 + - + - - + ch4 + - + - - + ch2 + - + - - + ch1 + - vref vref0 4ch vcc1 mute2 + - + - + - + - + + in1- out1 vm1(+) vm1(-) vm2(-) vm2(+) out2 in2- in2+ sin1- sout1 sin2- sout2 vm1 vcc2 vm3(-) vm3(+) in3+ in3- out3 vm3 vm4(-) vm4(+) in4a- in4b- vm2 4 6 7 8 9 12 13 14 15 16 5 2 3 22 23 17 18 19 20 21 1 41 42 10 11 26 32 33 op1+ op1- op1 out op2+ op2- op2 out 2ch 3ch sleep hi:sleep vcc2 vcc1 vref0 + -- - op1 op2 a2 a4 a4 a3 a3 a3 a3 a3 a1 a1 a1 s1 e1 e2 s2 e3 e4 bias
4-channel actuator driver m5 6 7 5 9 fp /afp mitsubishi -40 ? +150 sout1 s2 amplifier output vref0 , pins , , , , , , , , , , , , , , pins pins input voltage , and pins input voltage pin input voltage v v bootstrap power supply vcc2 15 symbol rating unit parameter conditions abs o l ut e m axi m um ra t i ng s (ta=25?c) v ma ?c v v v ?c mw/?c ?c vm vcc1 io vin1 pt k q t j topr tstg 15 7.0 700 0 ? vcc1 1.2 9.6 150 -20 ? +70 w vin2 0 ? vm1 limits min. typ. max. symbol unit parameter rec o m m e nde d o pera t i n g c o ndi t i o n s vcc1 5.0 4.5 5.5 v vm+1.0 vcc2 vm1 , 2 , 3 5.0 motor power supply 5v power supply output current maximum input voltage of terminals power dissipation thermal deratin g junction temperature operatin g temperature storage temperature free air free air 5v power supply bootstrap power supply motor power supply-1, 2, 3 in4b- e4 amplifier high gain input in2- e1 amplifier non-inverted input pin no. s y mbol pin no. function s y mbol pi n d e s cri pt i o n s vcc2 vref in3- in3+ vm3 out3 vm3 ( - ) vm3 ( + ) gnd vm4 ( + ) vm4 ( - ) in4a- vm2 bootstrap power supply 1 2 3 4 5 6 9 12 13 14 15 16 e3 amplifier output ch3 inverted output ch3 non-inverted output gnd ch4 non-inverted output ch4 inverted output motor power supply-2 to 10 11 7 function op2out vcc1 sin1- vm1 in1+ in1- out1 vm1 ( - ) vm1 ( + ) gnd vm2 ( + ) vm2 ( - ) out2 ch4 mute 22 23 24 25 26 27 30 31 34 35 36 ch2 inverted output ch2 non-inverted output gnd ch1 non-inverted output ch1 inverted output e1 amplifier output e1 amplifier inverted input to 32 33 28 reference voltage input e3 amplifier inverted input e3 amplifier non-inverted input motor power supply-3 ch1, 2 and 3 mute s2 amplifier inverted input e2 amplifier non-inverted input e2 amplifier inverted input e2 amplifier output 8 op2- op2 amplifier inverted input mute2 op2 amplifier output op1out op1- op1+ op2+ 17 18 19 20 21 op1 amplifier output op1 amplifier inverted input op2 amplifier non-inverted input in2+ sin2- sout2 mute1 37 38 39 40 41 motor power supply-1 s 1 amplifier inverted input s1 amplifier output 5v power supply reference voltage output e4 amplifier low gain input op1 amplifier non-inverted input 29 42 1 26 15 23 2 4 5 14 16 18 19 20 21 27 28 37 38 41 42 25 39 6
4-channel actuator driver m5 6 7 5 9 fp /afp mitsubishi vofs1 s1 output offset voltage +20 mv vofs2 +20 mv gainch1 14 14.8 db gainch2 14 14.8 db gainch3 20 20.8 db gainch4 4.08 4.91 db gains1 6.02 6.85 db gains2 6.02 6.85 db -1 ? {vm4(+)?m4(-)} (i n4a[-]?refo) {vm1(+)?m1(-)} (out1?refo) {vm2(+)?m2(-)} (out2?refo) {vm3(+)?m3(-)} (out3?refo) at vref=2.5v {sout1 - vrefo} (vm1[+] - si n1[-] ) {sout2 - vrefo} (vm2[+] - si n2[-] ) at vref=2.5v at vref=2.5v at vref=2.5v at vref=2.5v at vref=2.5v sout1-vrefo (at si n1[-] = vm1[+] ) at vref=2.5v sout2-vrefo (at si n2[-] = vm2[+] ) at vref=2.5v -20 -20 13.1 13.1 19.1 3.17 5.11 5.11 s2 output offset voltage ch1 power amplifier voltage gain ch2 power amplifier voltage gain ch3 power amplifier voltage gain ch4 power amplifier voltage gain s 1 amplifier voltage gain s2 amplifier voltage gain limits min. t y p. max. s y mbol conditions unit parameter el ect r i cal charact eri s t i cs icc1 supply current-1 24 36 ma icc2 9.5 15 ma icc3 500 m a vsatch1 0.8 1.20 v vsatch2 0.8 1.20 v vsatch3 0.5 0.9 v vsatch4 0.6 1.0 v vmute-on v vmute-off 0.8 v imute 170 250 m a vinop vc c 2 - 1 . 0 v voutop io= 2.0ma vc c 1 - 0 . 5 v vofop vin=2.5v (at buffer) +10 mv iinop -0.15 0 m a iofop 0 +100 na gbop 4 mhz vine vc c 2 - 2 . 0 v voute vc c 1 - 0 . 5 v vofe +10 mv iine -0.15 0 m a iofe 0 +100 na vouts vc c 1 - 0 . 5 v vinvref 2.5 vc c 1 - 1 . 2 v vofvref +10 mv vofch1 when the out1 voltage is adjusted at the same vrefo voltage, at vref=2.5v +26 mv vofch2 when the out2 voltage is adjusted at the same vrefo voltage, at vref=2.5v +26 mv vofch3 when the out3 voltage is adjusted at the same vrefo voltage, at vref=2.5v +26 mv vofch4 when the in4- voltage is adjusted at the same vrefo voltage, at vref=2.5v +26 mv 2.0 0.5 0.5 -10 -1.0 -100 2.3 0.5 1.0 -10 -1.0 -100 1.0 1.5 -10 -26 -26 -26 -26 supply current-2 sleep mode supply current-3 ch1 saturation voltage ch2 saturation voltage ch3 saturation voltage ch4 saturation voltage mute-on voltage mute-off voltage mute terminals input current op1 a n d op2 amplifier input voltage range op1 a n d op2 amplifier input offset voltage op1 a n d op2 amplifier input current op1 a n d op2 amplifier input current offset op1 a n d op2 amplifier gb e 1 , e 2 and e3 amplifier input voltage range e 1 , e 2 and e3 amplifier output voltage range e 1 , e 2 and e3 amplifier input offset voltage e 1 , e 2 and e3 amplifier input current e 1 , e 2 and e3 amplifier input current offset s1 and s2 amplifier output voltage range vref buffer amplifier input voltage range vref buffer amplifier offset voltage ch1 output offset voltage ch2 output offset voltage ch3 output offset voltage ch4 output offset voltage , , , pins supply current (vref=vctl=2.5v) pins [vcc1] supply current (vref=vctl=2.5v) , , , , pins supply current (mute1,2=h) top and bottom saturation voltage. load current 500ma. at bootstrap. mute-on mute-off and pin input current at 5v input voltage. inverted input = non-inverted input = 2.5v inverted input = non-inverted input = 2.5v no load vin=2.5v (at buffer) inverted input = non-inverted input = 2.5v inverted input = non-inverted input = 2.5v no load pin input voltage = 2.5v (ta=25?c, vcc1=vm1=vm2=vm3=5v, vcc2=12v, no-load current unless otherwise noted ) op1 a n d op2 amplifier output voltage range 1 26 15 6 23 1 23 26 15 6 41 42 2
4-channel actuator driver m5 6 7 5 9 fp /afp mitsubishi differential voltage gain = x10 ch3 amplifier 0.2v vm3- 1.0v vm3+ 1.0v + vm3+ vm3- vref0 2 4 7 in3+ 9 8 5 in3- out3 3 vref ch3 2.5v out3 vrefo vrefm3 ( vm3/2 ) e3 gainch3 + + + - - - -
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