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preliminary TTP226 tontouch tm 10?/01/13 page 1 of 15 ver : 1.3 8 keys touch pad detector ic general description the TTP226 tontouch tm is a touch pad detector ic which offers 8 touch keys. the touching detection ic is designed for replacing tr aditional direct button key with fixed pad size. low power consumption and wide operating voltage are the contact key feat ures for dc or ac application. features ? operating voltage 2.0v~5.5v ? operating current typical 100ua, max 160ua at vdd=3v ? the output refresh rate about 55hz at vdd=3v ? 64 steps sensitivity selectable (slse0~5 pin option) another have offer 2 kinds of base-step (opst pin option) ? stable touching detection of human body for replacing traditional direct switch key ? provides direct mode matrix mode and serial mode selected by pad option ? maximum 8 input pads and 8 outputs for direct mode; maximum 8 input pads for serial interface mode; maximum 8 input pads provide fixed 2*4 and 3*3 matrix types ? outputs can be selected active high or active low by pad option ? after power-on have 0.8~1.0sec stable-t ime, during the time do not touch the key-pad, and the function is disabled. ? auto calibration for life. and the re-calibration period is 0.8~1.0sec. when all keys do not touched. application ? wide consumer products ? button key replacement package configuration TTP226 ssop-48 slse5 slse4 slse3 slse2 nc slse1 nc slse0 vss dv q7 q6 q5 q4 q3 q2 nc nc opst q1 q0 test ahl ops0 ops1 vss vdd osc1 nc nc nc opt1 opt0 opw1 opw0 i0 i1 i2 i3 i4 i5 nc nc nc osc2 i6 i7 topad 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1
preliminary TTP226 tontouch tm 10?/01/13 page 2 of 15 ver : 1.3 block diagram for direct mode : test sensitivity selection opw1 opw0 opst opt1 opt0 ops1=1 ops0=1 ahl dv q7 q6 q5 q4 q3 q2 q1 q0 key-on timing driver & selection 8 outputs key de-bounce 8 sets slse5 slse4 slse3 slse2 slse1 slse0 osc1 osc2 control system timing sensor osc2 key detection i7 i6 i5 i4 i3 i2 i1 i0 reference osc1 topad switch scan & inputs block diagram for seri al interface mode : test ops1=0 ck(q7) dv rst(q6) do(q0) sensitivity selection opw1 opw0 opst opt1 opt0 ops0=1 ahl key-on timing driver & selection 8 outputs key de-bounce 8 sets slse5 slse4 slse3 slse2 slse1 slse0 osc1 osc2 control system timing sensor osc2 key detection i7 i6 i5 i4 i3 i2 i1 i0 reference osc1 topad switch scan & inputs
preliminary TTP226 tontouch tm 10?/01/13 page 3 of 15 ver : 1.3 block diagram for key-matrix mode : test (3*3 or 2*4) ops1 ops0=0 q5(scn5) q4(scn4) q3(scn3) q2(scn2) q0(scn0) q1(scn1) sensitivity selection opw1 opw0 opst opt1 opt0 ahl dv key-on timing driver & selection 8 outputs key de-bounce 8 sets slse5 slse4 slse3 slse2 slse1 slse0 osc1 osc2 control system timing sensor osc2 key detection i7 i6 i5 i4 i3 i2 i1 i0 reference osc1 topad switch scan & inputs
preliminary TTP226 tontouch tm 10?/01/13 page 4 of 15 ver : 1.3 pin description pin no. pin name share pin i/o type pin description 1 osc2 i/o sensor oscillator 2 topad i it is the common point of input port internal 3 i7 i input port 4 i6 i input port 5 nc 6 nc 7 nc 8 i5 i input port 9 i4 i input port 10 i3 i input port 11 i2 i input port 12 i1 i input port 13 i0 i input port 14 opw0 i-ph opw0~1 are option pins to select the windows of key-detected 15 opw1 i-ph opw0~1 are option pins to select the windows of key-detected 16 opt0 i-ph opt0~1 are option pins to select the time of key-on 17 nc 18 opt1 i-ph opt0~1 are option pins to select the time of key-on 19 nc 20 nc 21 osc1 i/o system oscillator pin 22 vss p negative power supply ground 23 vdd p positive power supply 24 ops1 i-ph output type option pin 25 ops0 i-ph output type option pin 26 ahl i-ph output active high or low selection 27 test i-ph only for test when normal function must be connected to vss 28 q0 (do/scn0) i/o q0 is output pin on direct mode do is the shifted data output pin on serial mode scn0 is the first scanning pin on matrix mode 29 q1 (scn1) i/o q1 is output pin on direct mode scn1 is the second scanning pin on matrix mode 30 nc 31 opst i-ph selecting the base step of sensitivity 32 nc 33 q2 (scn2) i/o q2 is output pin on direct mode scn2 is the third scanning pin on matrix mode 34 q3 (scn3) i/o q3 is output pin on direct mode scn3 is the fourth scanning pin on matrix mode 35 q4 (scn4) i/o q4 is output pin on direct mode scn4 is the fifth scanning pin on matrix mode 36 q5 (scn5) i/o q5 is output pin on direct mode scn5 is the sixth scanning pin on matrix mode 37 q6 (rst) i/o q6 is output pin on direct mode rst is the reset input pin on serial mode 38 q7 (ck) i/o q7 is output pin on direct mode ck is the clock input pin on serial mode 39 dv o data valid output signal 40 vss p negative power supply ground 41 slse0 i-ph slse0~5 are option pins to selected the sensitivity 42 nc 43 slse1 i-ph slse0~5 are option pins to selected the sensitivity 44 nc 45 slse2 i-ph slse0~5 are option pins to selected the sensitivity 46 slse3 i-ph slse0~5 are option pins to selected the sensitivity 47 slse4 i-ph slse0~5 are option pins to selected the sensitivity 48 slse5 i-ph slse0~5 are option pins to selected the sensitivity note: > ck and rst input with protection resistor for output collision. pin type i cmos input only o cmos push-pull output i/o cmos i/o i-ph cmos input and pull-high resister p power / ground
preliminary TTP226 tontouch tm 10?/01/13 page 5 of 15 ver : 1.3 electrical characteristics ? absolute maximum ratings ? dc/ac characteristics (test condition at room temperature=2 5 ) parameter symbol conditions value unit operating temperature t op -20 ~ +70 storage temperature t stg -50 ~ +125 power supply voltage vdd ta=25 c vss-0.3 ~ vss+5.5 v input voltage v in ta=25 c vss-0.3 ~ vdd+0.3 v human body mode esd 5 kv note vss symbolizes for system ground parameter symbol test condition min. typ. max. unit operating voltage vdd 2.0 3 5.5 v reference oscillator osc1 vdd=3v - 440k - hz sensor oscillator osc2 vdd=3v no load - 710k - hz operating current i op vdd=3v output no load - 100 160 ua input ports v il input low voltage 0 - 0.2 vdd input ports v ih input high voltage 0.8 - 1.0 vdd output port sink current i ol vdd=3v, vol=0.6v - 8 - ma output port source current i oh vdd=3v, voh=2.4v - -4 - ma
preliminary TTP226 tontouch tm 10?/01/13 page 6 of 15 ver : 1.3 function description 1. system timing control ? input detection sensitivity reserved 6 pin option 64 steps features characteristic example system clock osc1 440khz at 3v output refresh rate <= osc1/1024/8 ~55hz dv active pulse width <= osc1/8 ~55khz 2. system initial signal system initial or mode initial state function power on reset system reset to initial state rst=1 serial mode shift counter reset 3. interrupt for mcu system, the interrupt request is useful for software programming. the dv signal offer the considerate output control. the dv is active hi gh or active low optioned by ahl pin. any active input can pass the de-bounce procedure will active the dv signal. for different application, some output needs active high and others need active low. the ahl pin can offers the optional feature. ahl pin option active output state de-bounce ii trigger the qi dv=0 ahl=0 qi=0 de-bounce ii trigger the qi dv=1 ahl=1 qi=1 ahl input ii output qi or dv non-active 1 0 active 0 non-active 0 1 active 1
preliminary TTP226 tontouch tm 10?/01/13 page 7 of 15 ver : 1.3 4. output mode most output modes will operate at direct or serial mode. only when ops0=0, the output mode will work as matrix type. output type option ops1 ops0 output type remark 1 1 direct type qi ? de-bounce ii 0 1 serial type use ck & rst & do seri al out the de-bounce key 1 0 matrix type matrix 3*3 fixed type 0 0 matrix type matrix 2*4 fixed type a. direct mode: ops1=1 & ops0=1 direct mode output state input trigger de-bounce ii trigger the qi b. key matrix mode: ops1=x & ops0=0 b-1: 2*4 key map (by ops1=0) matrix scn2 scn3 scn4 scn5 scn0 i0 i2 i4 i6 scn1 i1 i3 i5 i7 b-2: 3*3 key map (by ops1=1) matrix scn3 scn4 scn5 scn0 i0 i3 i6 scn1 i1 i4 i7 scn2 i2 i5 - c. serial mode: ops1=0 & ops0=1 serial mode procedure (ops1=0) reset & clock shifter counter do rst =1 0 de-bounce i0 1 st ck 1 de-bounce i1 2 nd ck 2 de-bounce i2 3 rd ck 3 de-bounce i3 4 th ck 4 de-bounce i4 5 th ck 5 de-bounce i5 6 th ck 6 de-bounce i6 7 th ck 7 de-bounce i7 8 th ck 0 de-bounce i0 9 th ck 1 de-bounce i1 ----------- -------
preliminary TTP226 tontouch tm 10?/01/13 page 8 of 15 ver : 1.3 serial mode rst and ck and do timing (the value is minimum) 62us 62us 62us 17us dv d1 d0 d7 d6 d5 d4 d3 d2 d1 d0 do ck rst 5. key on duration time opt1 opt0 on duration time 1 1 infinite(disable key-on-time) 1 0 10 seconds to reset system 0 1 30 seconds to reset system 0 0 60 seconds to reset system when enable key-on-time, any key of the i0~i7 keys has been detected, it will start the key-on-time counter until releasing key-touch. and for the duration has another key to be detected, the key-on-time counter will be re-counting. 6. sensitivity select and base-step sel ect and windows of sensitivity select a. the windows of sensitivity select by opw0 & opw1 pins. when the windows of sensitivity is selected, and the key has detected, the condition for detecting different number will change from primitive setting numbers to smaller. so the doi ng will make the key touch detecting stably. opw1 opw0 windows selecting 1 1 no-windows 1 0 1/2-windows 0 1 1/4-windows 0 0 1/8-windows b. the selecting base-step of sensitivity opst base-step 1 1-step(1 sensor-clock) 0 2-step(2 sensor-clock) c. sensitivity selecting the key detecting condition is th e value (different clock number s) of no-windows for detecting from no-touching to touching. when the key has been detected, the condition of key detecting and releasing will change to the value of selecting windows for the windows enabling.
preliminary TTP226 tontouch tm 10?/01/13 page 9 of 15 ver : 1.3 sensitivity table pin slse[5~0] the different clock numbers (_clk) 1-base-step 2-base-step 5 4 3 2 1 0 no-w 1/2-w 1/4-w 1/8-w no-w 1/2-w 1/4-w 1/8-w 1 1 1 1 1 1 1 - - - 2 - - - 1 1 1 1 1 0 2 1 1 1 4 2 2 2 1 1 1 1 0 1 3 1 2 2 6 2 4 4 1 1 1 1 0 0 4 2 3 3 8 4 6 6 1 1 1 0 1 1 5 2 3 4 10 4 6 8 1 1 1 0 1 0 6 3 4 5 12 6 8 10 1 1 1 0 0 1 7 3 5 6 14 6 10 12 1 1 1 0 0 0 8 4 6 7 16 8 12 14 1 1 0 1 1 1 9 4 6 7 18 8 12 14 1 1 0 1 1 0 10 5 7 8 20 10 14 16 1 1 0 1 0 1 11 5 8 9 22 10 16 18 1 1 0 1 0 0 12 6 9 10 24 12 18 20 1 1 0 0 1 1 13 6 9 11 26 12 18 22 1 1 0 0 1 0 14 7 10 12 28 14 20 24 1 1 0 0 0 1 15 7 11 13 30 14 22 26 1 1 0 0 0 0 16 8 12 14 32 16 24 28 1 0 1 1 1 1 17 8 12 14 34 16 24 28 1 0 1 1 1 0 18 9 13 15 36 18 26 30 1 0 1 1 0 1 19 9 14 16 38 18 28 32 1 0 1 1 0 0 20 10 15 17 40 20 30 34 1 0 1 0 1 1 21 10 15 18 42 20 30 36 1 0 1 0 1 0 22 11 16 19 44 22 32 38 1 0 1 0 0 1 23 11 17 20 46 22 34 40 1 0 1 0 0 0 24 12 18 21 48 24 36 42 1 0 0 1 1 1 25 12 18 21 50 24 36 42 1 0 0 1 1 0 26 13 19 22 52 26 38 44 1 0 0 1 0 1 27 13 20 23 54 26 40 46 1 0 0 1 0 0 28 14 21 24 56 28 42 48 1 0 0 0 1 1 29 14 21 25 58 28 42 50 1 0 0 0 1 0 30 15 22 26 60 30 44 52 1 0 0 0 0 1 31 15 23 27 62 30 46 54 1 0 0 0 0 0 32 16 24 28 64 32 48 56 0 1 1 1 1 1 33 16 24 28 66 32 48 56 0 1 1 1 1 0 34 17 25 29 68 34 50 58 0 1 1 1 0 1 35 17 26 30 70 34 52 60 0 1 1 1 0 0 36 18 27 31 72 36 54 62 0 1 1 0 1 1 37 18 27 32 74 36 54 64 0 1 1 0 1 0 38 19 28 33 76 38 56 66 0 1 1 0 0 1 39 19 29 34 78 38 58 68 0 1 1 0 0 0 40 20 30 35 80 40 60 70 0 1 0 1 1 1 41 20 30 35 82 40 60 70 0 1 0 1 1 0 42 21 31 36 84 42 62 72 0 1 0 1 0 1 43 21 32 37 86 42 64 74 0 1 0 1 0 0 44 22 33 38 88 44 66 76 0 1 0 0 1 1 45 22 33 39 90 44 66 78 0 1 0 0 1 0 46 23 34 40 92 46 68 80 0 1 0 0 0 1 47 23 35 41 94 46 70 82 0 1 0 0 0 0 48 24 36 42 96 48 72 84 0 0 1 1 1 1 49 24 36 42 98 48 72 84 0 0 1 1 1 0 50 25 37 43 100 50 74 86 0 0 1 1 0 1 51 25 38 44 102 50 76 88 0 0 1 1 0 0 52 26 39 45 104 52 78 90 0 0 1 0 1 1 53 26 39 46 106 52 78 92 0 0 1 0 1 0 54 27 40 47 108 54 80 94 0 0 1 0 0 1 55 27 41 48 110 54 82 96 0 0 1 0 0 0 56 28 42 49 112 56 84 98 0 0 0 1 1 1 57 28 42 49 114 56 84 98 0 0 0 1 1 0 58 29 43 50 116 58 86 100 0 0 0 1 0 1 59 29 44 51 118 58 88 102 0 0 0 1 0 0 60 30 45 52 120 60 90 104 0 0 0 0 1 1 61 30 45 53 122 60 90 106 0 0 0 0 1 0 62 31 46 54 124 62 92 108 0 0 0 0 0 1 63 31 47 55 126 62 94 110 0 0 0 0 0 0 64 32 48 56 128 64 96 112
preliminary TTP226 tontouch tm 10?/01/13 page 10 of 15 ver : 1.3 7. option pin for power saving concern and package bonding option consideration, all the f eature option pin with latch type design and initialized as 1 as power on. if those pins are forced to vss, the states will be changed to 0 without any current leakag e to conflict the power saving issue. feature option pins in itial state by power on opw0 1 opw1 1 opt0 1 opt1 1 ops1 1 ops0 1 ahl 1 opst 1 slse0~slse5 sensitivity 111111
preliminary TTP226 tontouch tm 10?/01/13 page 11 of 15 ver : 1.3 application circuit a. for direct mode application for direct key output mode voltage regulator +2.0 ~ +5.5v vout vin vss TTP226 test ssop-48 slse1 slse5 slse4 slse3 slse2 opst opt1 opt0 opw1 opw0 slse0 vss dv q7 q6 q5 q4 q3 q2 q1 q0 ahl ops0 ops1 vdd vss osc1 i0 i1 i2 i3 i4 i5 i6 i7 topad osc2 1 10 11 12 13 14 15 16 17 18 19 2 20 21 22 23 24 25 26 27 28 29 3 30 31 32 33 34 35 36 37 38 39 4 40 41 42 43 44 45 46 47 48 5 6 7 8 9 4.7uf see p.s. : 6 c2 co ci 104 4.7uf vcc see p.s. : 2 j1 dv out_7 out_6 out_5 out_4 out_3 out_2 out_1 out_0 key7 key6 key5 key4 key3 key2 key1 key0 p. s . 1. on pcb, the length of lines from touch pad to ic pins are best the same with k0 to k7. and the lines do not parallel and cross with other lines. 2. when the application use larger touch pad, recommend to use capacitor on the place of j1. that can improve the stability. and the va lue of capacitor can be used by the real application. other application can be short on the place of j1. 3. the power supply must be stable. if the supply voltage drift or shift quickly, maybe causing sensitivity anomalies or false detections. 4. the material of panel covering on the pcb can not include the metal or the electric element. the paints on the surfaces are the same. 5. the c2 capacitor must be used between vdd a nd vss; and should be ro uted with very short tracks to the device?s vdd and vss pins (TTP226). 6. the value of capacitors can be used by the real application for ci and co capacitors.
preliminary TTP226 tontouch tm 10?/01/13 page 12 of 15 ver : 1.3 b. for matrix key mode application for matrix key output mode voltage regulator +2.0 ~ +5.5v vout vin vss TTP226 test ssop-48 slse1 slse5 slse4 slse3 slse2 opst opt1 opt0 opw1 opw0 slse0 vss dv q7 q6 q5 q4 q3 q2 q1 q0 ahl ops0 ops1 vdd vss osc1 i0 i1 i2 i3 i4 i5 i6 i7 topad osc2 1 10 11 12 13 14 15 16 17 18 19 2 20 21 22 23 24 25 26 27 28 29 3 30 31 32 33 34 35 36 37 38 39 4 40 41 42 43 44 45 46 47 48 5 6 7 8 9 4.7uf see p.s. : 6 c2 co ci 104 4.7uf vcc see p.s. : 2 j1 dv scn5 scn4 scn3 scn2 scn1 scn0 key7 key6 key5 key4 key3 key2 key1 key0 p. s . 1. on pcb, the length of lines from touch pad to ic pins are best the same with k0 to k7. and the lines do not parallel and cross with other lines. 2. when the application use larger touch pad, recommend to use capacitor on the place of j1. that can improve the stability. and the va lue of capacitor can be used by the real application. other application can be short on the place of j1. 3. the power supply must be stable. if the supply voltage drift or shift quickly, maybe causing sensitivity anomalies or false detections. 4. the material of panel covering on the pcb can not include the metal or the electric element. the paints on the surfaces are the same. 5. the c2 capacitor must be used between vdd a nd vss; and should be ro uted with very short tracks to the device?s vdd and vss pins (TTP226). 6. the value of capacitors can be used by the real application for ci and co capacitors.
preliminary TTP226 tontouch tm 10?/01/13 page 13 of 15 ver : 1.3 c. for serial output mode application for serial output mode voltage regulator +2.0 ~ +5.5v vout vin vss TTP226 test ssop-48 slse1 slse5 slse4 slse3 slse2 opst opt1 opt0 opw1 opw0 slse0 vss dv q7 q6 q5 q4 q3 q2 q1 q0 ahl ops0 ops1 vdd vss osc1 i0 i1 i2 i3 i4 i5 i6 i7 topad osc2 1 10 11 12 13 14 15 16 17 18 19 2 20 21 22 23 24 25 26 27 28 29 3 30 31 32 33 34 35 36 37 38 39 4 40 41 42 43 44 45 46 47 48 5 6 7 8 9 4.7uf see p.s. : 6 c2 co ci 104 4.7uf vcc see p.s. : 2 j1 rst ck do dv key7 key6 key5 key4 key3 key2 key1 key0 p. s . 1. on pcb, the length of lines from touch pad to ic pins are best the same with k0 to k7. and the lines do not parallel and cross with other lines. 2. when the application use larger touch pad, recommend to use capacitor on the place of j1. that can improve the stability. and the va lue of capacitor can be used by the real application. other application can be short on the place of j1. 3. the power supply must be stable. if the supply voltage drift or shift quickly, maybe causing sensitivity anomalies or false detections. 4. the material of panel covering on the pcb can not include the metal or the electric element. the paints on the surfaces are the same. 5. the c2 capacitor must be used between vdd a nd vss; and should be ro uted with very short tracks to the device?s vdd and vss pins (TTP226). 6. the value of capacitors can be used by the real application for ci and co capacitors.
preliminary TTP226 tontouch tm 10?/01/13 page 14 of 15 ver : 1.3 package outline (48 pin ssop)
preliminary TTP226 tontouch tm 10?/01/13 page 15 of 15 ver : 1.3 order information a. package form: TTP226-xxx b. chip form: tcp226 c. wafer base: tdp226 revise history 1. 2008/02/01 -original version v_1.0 2. 2008/06/10 => v_1.1 -change the page-1 application. -change the page-2, 3 block diagram i/o mark. -add the page-4 th e pin type description. -change the page-11, 12, 13 application circuit. -add the page-15 the revise history. 3. 2009/08/25 => v1.2 - ?] ton touch ???? ton touch tm - general description e TTP226 ? ton touch tm 4. 2010/01/13 => v1.3 -change the error (ttp222 => TTP226) on the page-1 genera l description.

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