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| ASAHI KASEI [AK4182A] AK4182A Features: 12 bit SAR type A/D Converter with S/H circuit Low Voltage Operation (VCC = 2.2V 3.6V) Low Voltage Digital I/F (1.5V VCC) 4-wire I/F Sampling Frequency: 125 kHz (max) On-Chip Voltage Reference (2.5V) Pen Pressure Measurement On-Chip Thermo Sensor Direct Battery Measurement Low Power Consumption (260A) Package 16pin QFN Touch Screen Controller General Description: The AK4182A is a 4-wire resistive touch screen controller that incorporates a 12-bit 125 kHz sampling SAR type A/D converter. The AK4182A operates down to 2.2V supply voltage and supports digital I/O interface voltage from 1.5V to VCC in order to connect low voltage uP. The AK4182A can detect the pressed screen location by performing two A/D conversions. In addition to location, the AK4182A also measures touch screen pressure. On-chip VREF can be utilized for analog auxiliary input, temperature measurement and battery monitoring with the ability to measure voltage from 0V to 5V. The AK4182A also has an on-chip temperature sensor. The AK4182A is available in 16pin QFN thin package (0.75mm in height) and has the operating temperature range of -40C to +85C XP DCLK YP Level Shifter Control Logic CSN XN DOUT YN DIN IN VBAT R1 R2 VREF+ AIN+ AINVREF- BUSY Internal VREF(2.5V) IOVDD PENIRQN 12bit ADC (SAR type) PEN INTERRUPT Temp. Sensor VCC VREF GND Block Diagram MS0482-E-00 1 2006/03 ASAHI KASEI [AK4182A] Ordering Guide AK4182AVN -40C +85C 16pinQFN Pin Layout PENIRQN IOVDD DOUT VREF IN VBAT GND YN BUSY DIN CSN DCLK VCC XP YP XN MS0482-E-00 2 2006/03 ASAHI KASEI [AK4182A] Pin/Function No. 1 Signal Name BUSY I/O O Description BUSY Output This pin goes to low at CSN = "L". BUSY signal is "H" only for the period between the falling edge of 8th DCLK and the falling edge of 9th DCLK. This pin is Hi-Z state at CSN= "H" Serial Data Input Inputs 8-bit control command data serially when CSN= "L" AK4182A latches at the rising edge of DCLK. Must keep "L" while not issuing commands. Chip Select Input Enables writing data to the registers when CSN= "L". External Clock Input Power Supply Touch Screen X+ plate Voltage supply X axis Measurement: Supplies the voltage to X+ position input Y axis Measurement: This pin is used as the input for the A/D converter Pen Pressure Measurement: This pin is the input for the A/D converter at Z1 measurement. Temperature/VBAT/IN Measurement: OPEN state Pen Waiting State: Pulled up by an internal resistor (typ.50K). Touch Screen Y+ plate Voltage supply Y axis Measurement: Supplies the voltage to Y+ position input X axis Measurement: This pin is used as the input for the A/D converter Pen Pressure Measurement: Supplies the voltage. Temperature/VBAT/IN Measurement: OPEN state Pen Waiting State: OPEN state Touch Screen X- plate Voltage supply X axis Measurement: Supplies the voltage to X- position input Y axis Measurement: OPEN state Pen Pressure Measurement: Supplies the voltage. Temperature/VBAT/IN Measurement: OPEN state Touch Screen Y- plate Voltage supply Y axis Measurement: Supplies the voltage to Y- position input X axis Measurement: OPEN state Pen Pressure Measurement: This pin is the input for the A/D converter at Z2 measurement. Temperature/VBAT/IN Measurement: OPEN state Pen Waiting State: connected to GND. Ground Analog Input for Battery Monitor Auxiliary Analog Input Voltage Reference Input/Output 2.5V reference voltage output at PD1 = "1". Voltage reference input at PD1 = "0". Digital I/O Power Supply Pen Interrupt Output This pin is "L" during the pen down on pen interrupt enable state with CSN ="H" otherwise this pin is "H". This pin is "H" during pen interrupt disable state with the CSN = "H" regardless pen touch. See Power-down Control and Pen Interrupt for the reference. Serial A/D Data Output Output A/D data serially at the falling edge of DCLK. MSB is output at the falling edge of BUSY signal. Output "L" at CSN= "L" during A/D data does not output. This pin is Hi-Z state at CSN="H" 2 DIN I 3 4 5 6 CSN DCLK VCC XP I I I/O 7 YP I/O 8 XN I/O 9 YN I/O 10 11 12 13 14 15 GND VBAT IN VREF IOVDD PENIRQN I I I/O O 16 DOUT O MS0482-E-00 3 2006/03 ASAHI KASEI [AK4182A] Absolute Maximum Ratings GND = 0V (Note 1) Parameter Power Supplies Digital I/O Power Supply Input Current (any pins except for supplies) Input Voltage Touch Panel Drive Current Ambient Temperature (power supplied) Storage Temperature Note 1.All voltages with respect to ground. Symbol VCC IOVDD IIN VIN IOUTDRV Ta Tstg Min -0.3 -0.3 -0.3 -40 -65 max 6.0 6.0 10 6.0(VCC+0.3) 50 85 150 Units V V mA V mA C C WARNING: Operation at or beyond these limits may result in permanent damage to the device. Normal operation is not guaranteed at these extremes. Recommended Operating Conditions GND = 0V (Note 1) Parameter Power Supplies Digital I/O Power Supply Note 1. All voltages with respect to ground. Symbol VCC IOVDD Min 2.7 1.5 typ 3.3 3.3 max 3.6 VCC Units V V WARNING: AKM assumes no responsibility for the usage beyond the conditions in this datasheet. MS0482-E-00 4 2006/03 ASAHI KASEI [AK4182A] Analog Characteristics Ta=-40C to 85C, VCC = IOVDD = 2.7V, External Vref=2.5V, fs = 125 KHz, fDCLK = 16 x fs, 12bit mode Parameter min typ ADC for Touch Screen Resolution 12 No Missing Codes 11 12 Integral Nonlinearity (INL) Error Differential Nonlinearity (DNL) Error 1 Analog Input Voltage Range 0 Offset Error Gain Error Touch Panel Driver 5 XP, YP, RL=300 5 XN, YN, RL=300 XP Pull Up Register (when pen interrupt enable) 50 PSRR (10KHz 100mVpp) 70 Reference Output Internal Reference 2.44 2.50 Drift 30 Load Capacitance 0.1 Reference Input Input Voltage Range Battery Monitor Input Voltage Range Input Impedance (Battery Measure Mode) 5 10 Accuracy (Note 2) External VREF = 2.5V is used Accuracy (Note 2) Internal Reference is used. Temperature Measurement Temperature Range -40 Resolution (Note 3) 1.6 Accuracy (Note 4) 3 Power Supply Current Normal Mode (Internal Reference OFF) 260 Normal Mode (Internal Reference ON) 540 Full Power Down(when writing control command with PD1=PD0= "0") 0 max Units Bits Bits LSB LSB V LSB LSB K dB 2.56 V ppm/C F V V K % % C C C A A A 2 Vref 6 4 VCC 5.0 2 3 85 500 800 3 Note 2. Accuracy is the difference between the output code when 5 volts is input to the VBAT pin and the "ideal" code at 1.25 volts. Note 3. "Ideal" value derived from theory Note 4. Accuracy is defined as the difference between the voltage measured by two current sources, and the ideal voltage derived from theory at specific temperatures. MS0482-E-00 5 2006/03 ASAHI KASEI [AK4182A] DC Characteristics (Logic I/O) Ta = -40C to 85C, IOVDD = 1.5V to 3.6V Parameter "H" level input voltage "L" level input voltage Input Leakage Current "H" level output voltage (@ Iout = -250A) "L" level output voltage (@ Iout= 250A) Tri-state Leakage Current All pins except for XP, YP, XN, YN pins XP, YP, XN, YN pins Symbol VIH VIL IILK VOH VOL IOLK min 0.8xIOVDD -10 IOVDD-0.4 -10 -50 typ max 0.2xIOVDD 10 0.4 10 50 Units V V A V V A A Switching Characteristics Ta = -40C to 85C, VCC = 2.2V to 3.6V, IOVDD = 1.5V to VCC, CL = 50pF Parameter Symbol min Touch Panel (A/D Converter) Throughput Rate fs DCLK frequency fDCLK 10 duty duty 40 tTRK 1.428 Tracking Time (Rin=600) (Note 5) Conversion Time tCONV t1 100 CSN "" to First DCLK "" t2 CSN "" to BUSY Tri-State Disabled t3 CSN "" to DOUT Tri-State Disabled DCLK High Pulse Width t4 190 DCLK Low Pulse Width t5 190 t6 DCLK "" to BUSY "" Data Setup Time t7 100 Data Valid to DCLK Hold Time t8 10 t9 Data Access Time after DCLK "" t10 0 CSN "" to DCLK Ignored t11 CSN "" to BUSY Hi-Z state t12 CSN "" to DOUT Hi-Z state Note 5. The actual tracking periods are 3tDCLK. (tDCLK=1/fDCLK) CSN t5 t1 DCLK t8 t7 DIN PD0 50%VCC t4 t6 t6 t9 t10 50%VCC typ max 125 2100 60 12 200 200 Units kHz kHz % s 1/fDCLK ns ns ns ns ns ns ns ns ns ns ns ns 50 160 160 200 200 50%VCC t2 BUSY t11 VOH VOL t12 t3 DOUT D11 D10 D0 VOH VOL Figure 1 AK4182A Timing Diagram MS0482-E-00 6 2006/03 ASAHI KASEI [AK4182A] A/D Converter for Touch Screen The AK4182A incorporates a 12-bit successive approximation resistor (SAR) A/D converter for position measurement, temperature, and battery voltage. The architecture is based on capacitive redistribution algorithm, and an internal capacitor array functions as the sample/hold (S/H) circuit. The SAR A/D converter output is a straight binary format as shown below: Input Voltage Output Code FFFH (VREF-1.5LSB)~ VREF FFEH (VREF-2.5LSB) ~ (VREF-1.5LSB) ----------------0.5LSB ~ 1.5LSB 001H 0 ~ 0.5LSB 000H VREF: (VREF+) - (VREF-) Table 1 Output Code The full scale (VREF) of the A/D converter depends on the input mode. The AK4182A is controlled by the 8 bit serial command on DIN. Analog Inputs Analog input is selected via the A2, A1, A0 and SER/ DFR bits in the control register. If the analog inputs are selected to the X or Y-axis, SER/ DFR = "0", which means differential mode, the full scale (VREF) is the differential voltage between the noninverting terminal and the inverting terminal of the measured axis (e.g. X-axis measurement :(XP) - (XN)). Analog non-inverting input to A/D converter is the non-inverting terminal of the non-measured axis while the inverting input is the inverting terminal of the measured axis. If the SER/ DFR bit is set to "1" which means single-ended mode, the full scale of A/D converter (VREF) is the internal reference voltage or external reference voltage. Note that SER/ DFR bit should be set to"0" if IN2 is selected as analog input; nevertheless, IN2 is actually measured by single-ended mode. Tracking time is the period from the falling edge of 5th DCLK to that of 8th DCLK after the detection of START bit during CSN="L". The required settling time to charge the internal capacitor array depends on the source impedance (Rin). If the source impedance is 600, the settling time needs at least 1.428s (3tDCLKat 2.1MHz). The maximum throughput of A/D converter is 125 kHz. If the source impedance of analog input or battery input is larger than 600, longer tracking time is required. The Position Detection of Touch Screen The position on the touch screen is detected by taking the voltage of one axis when the voltage is supplied between the two terminals of another axis. At least two A/D conversions are needed to get the two-dimensional (X/Y axis) position. MS0482-E-00 7 2006/03 ASAHI KASEI [AK4182A] ON XP ON XP VREF AIN+ YP VREF AIN+ YP ADC VREFAIN- ADC VREFAIN- XN XN ON YN ON YN a) X-Position Measurement Differential Mode b) Y-Position Measurement Differential Mode Figure 2 Axis Measurement The differential mode position detection is typically more accurate than the single-ended mode. As the full scale of single-ended mode is fixed to the internal (or external) reference voltage, input voltage may exceed the full-scale reference voltage. This problem does not occur in differential mode. In addition to this, the differential mode is less influenced by power supply voltage variation due to the ratio-metric measurement. However, note that the touch screen driver switch is still ON and the current flows even for the A/D conversion time. On the other hand, the touch screen driver switch is ON only for the tracking time, 3tDCLK. From the point of power consumption, singleended mode has more advantages. However the differential mode is generally used to get more accurate measurement in position detecting. The Pen Pressure Measurement The touch screen pen pressure can be derived from the measurement of the contact resistor between two plates. The contact resistance depends on the size of the depressed area and the pressure. The area of the spot is proportional to the contact resistance. This resistance (Rtouch) can be calculated using two different methods. The first method is that when the total resistance of the X-plate sheet is already known. The resistance, Rtouch, is calculated from the results of three conversions, X-position, Z1-Position, and Z2-Position, and then using the following formula: Rtouch = (Rxplate) * (Xposition/4096) * [(Z2/Z1) - 1] The second method is that when both the resistances of the X-plate and Y-plate are known. The resistance, Rtouch, is calculated from the results of three conversions, X-position, Y-Position, and Z1-Position, and then using the following formula: Rtouch = (Rxplate*Xposition/4096)*[(4096/Z1) - 1] - Ryplate*[1 - (Yposition/4096)] MS0482-E-00 8 2006/03 ASAHI KASEI [AK4182A] ON YP ON YP XP VREF+ AIN+ touch VREF+ AIN+ XP touch ADC VREFAIN- ADC VREFAIN- XN XN ON YN ON YN a) Z1-Position Measurement Differential Mode b) Z2-Position Measurement Differential Mode Figure 3 Pen Pressure Measurements Voltage Reference The AK4182A has an internal 2.5V voltage reference. This reference can be turned ON when PD1 = "1", and OFF when PD1 = "0". This reference is used in the single-ended mode for the battery monitoring, temperature measurement, or for auxiliary input. A 0.1F or larger capacitor should be connected for stable operation of the VREF circuit. Settling time depends on this external capacitance, but 500s or longer time is required if the external capacitance is 0.1F. If an external voltage reference is used, PD1 bit should be set to "0". VCC should be more than 2.7V in order to be stable internal output reference when PD1 = "1" (internal voltage reference). Battery Measurement The AK4182A can directly measure the battery voltage up to 5V while the AK4182A operates at 2.2V to 3.6V. The VBAT input voltage is divided internally by the resistance of R1 (7.5k) and R2 (2.5k) and applied to the input of AD converter (AIN+) as shown in Figure 4. Minimum 5s is required as tracking time. . VREF PD1 Internal VREF(2.5V) VBAT R0 R1=7.5K AINR2=2.5K AIN+ ADC VREFVREF+ Enable Figure 4 Battery Monitoring MS0482-E-00 9 2006/03 ASAHI KASEI [AK4182A] Temperature Measurement Equation <1> describes the forward characteristics of the diode. <1> iD=I0exp(vD/VT) ( VT = kT/q) I0: reverse saturation current q : 1.602189x10-19 (electron charge) k : 1.38054x10-23 (Boltzmann's constant) vD: voltage across diode T: absolute temperature K The diode characteristic is approximately shown as a diode junction voltage. That is theoretically proportional to the temperature; the ambient temperature can be predicted by knowing this voltage. iD1 =I Temp. Sensor iD2 = 91 x I TEMP0 TEMP1 Figure 5 Temperature Measurement As the AK4182A has two different fixed current circuits and a diode (temperature sensor), the temperature can be measured by using two different methods. The first method needs two conversions, but can derive the temperature directly without knowing the voltage at a specific temperature. From equation <1> (iD2 / iD1) = exp {(v(91 x I) - v(I))/VT} TC = (Vbe * q)/(k * ln N) - 273 Vbe = V (91 x I) - V (I) TC = 2.573x103 x Vbe - 273 N = (iD2 / iD1) = 91 (ratio of the current) The second method needs only one conversion as the following equation, but requires knowing the junction voltage at the specific temperature. T = (k/q)* vD/ln (iD/I0) <2> MS0482-E-00 10 2006/03 ASAHI KASEI [AK4182A] Digital I/F The digital I/O of AK4182A can operate from 1.5V IOVDD. This allows connecting the low -voltage microprocessor. The full scale level of digital I/O voltage is specified IOVDD. VCC=2.2V - 3.6V IOVDD=1.5V - VCC IOVDD AK4182A DCLK SDIN SDOUT BUSY MicroProcessor Figure6 Digital I/F Control Command The control command, 8 bits, provided to the AK4182A via DIN is shown in the following table. This command includes start bit, channel selection, resolution, measurement configuration, and power-down mode. The AK4182A latches the serial command at the rising edge of DCLK. Refer to the detailed information regarding the bit order, function, the status of driver switch, ADC input, reference voltage as shown in Table 2. D7 S D6 A2 D5 A1 D4 A0 D3 MODE D2 SER/ DFR D1 PD1 D0 PD0 BIT 7 6-4 3 2 3 Name S A2-A0 MODE SER/ DFR PD1-PD0 Function Start Bit. This bit must be "H" because the AK4182A initiates the command recognition Channel Selection Bits. Analog inputs to the A/D converter and the activated driver switches are selected. Please see the following table for the detail. Resolution of A/D converter. "L": 12 bit output "H": 8 bit output Measurement Mode (Single-Ended/Differential) Power-down Mode (reference to " Power-down Control") Control Command A2 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 A1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 A0 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 SER/ DFR 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 Status of Driver Switch XP OFF OFF OFF OFF OFF ON OFF OFF OFF OFF OFF ON XN OFF OFF OFF ON ON ON OFF OFF OFF ON ON ON YP OFF ON OFF ON ON OFF OFF OFF ON ON ON OFF YN OFF ON OFF OFF OFF OFF OFF OFF ON OFF OFF OFF ADC input (AIN) AIN+ TEMP0 XP VBAT XP(Z1) YN(Z2) YP IN1 TEMP1 XP XP(Z1) YN(Z2) YP AINGND GND GND GND GND GND GND GND YN XN XN XN Reference Voltage (VREF) VREF+ VREFVREF VREF VREF VREF VREF VREF VREF VREF YP YP YP XP GND GND GND GND GND GND GND GND YN XN XN XN Note TEMP0 Y-axis Battery Monitor Z1 (Pen Pressure) Z2 (Pen Pressure) X-axis IN1 TEMP1 NA Y-axis NA Z1 (Pen Pressure) Z2 (Pen Pressure) X-axis Sleep mode NA Table 2 Control Command List MS0482-E-00 11 2006/03 ASAHI KASEI [AK4182A] Power on Sequence It is recommended that the control command is sent to fix the internal register value to be 00H when first power up. This initiates all registers such as A2-0 bit, MODE bit, SER/DFR bit, PD1 bit and PD0 bit. The sequence is that 1) Power On with CSN = "L" or "H" then CSN = "H". 2) Send control command after CSN = "L". 3) CSN = "H" again. Once sending command to fix the internal register after first power up, the state of AK4182A is held on the known-condition of state as last command issued. Sleep mode AK4182A supports sleep mode that enables touch panel to put open state and disables pen interrupt function. AK4182A goes into sleep mode when AK4182A gets the sleep control command. The selection of the Sleep mode is set by "MODE" bit. The state of both the output of PENIRQN pin and the connection with touch panel interface (XP, YP, XN, and YN) are the following Table 3. AK4182A goes into the sleep mode with the power-down mode set by PD1, PD0 (refer to Table 4). AK4182A keeps the sleep mode until it receives next control command. Control command command MODE 111010XX 1 111000XX 0 CSN="L" PENIRQN Touch Panel Normal Operation Normal Operation Normal Operation Normal Operation Table 3 Sleep Command Setting The timing of going into the Sleep mode is the rising edge of the 8th DCLK. This sleep mode is available when CSN = "H". AK4182A goes into normal operation out of sleep mode when the normal control command receives. The initial state after power up is in a normal state. CSN="H" PENIRQN Touch Panel Hi-z Open Output "H" Open Power-down Control Power-down is controlled by two bits, PD0 bit and PD1 bit. The power-down state of internal voltage reference is controlled by PD1 bit, and is updated at the rising edge of 7th DCLK with CSN = "L". The power-down state of A/D converter, and touch screen driver switches is controlled by PD0 bit, and is updated at the rising edge of 8th DCLK with CSN = "L". If PD0 bit is set to "1", the state of the driver switches is maintained until the 5th DCLK of the next conversion if CSN is "L". If CSN is "H", all driver switches except for YN switch switches are turned off and are open states. Only YN driver switch is turned ON and YN pin is forced to the ground in this case. PD1 0 PD0 0 PENIRQN Enabled Function Auto Power-down Mode. A/D converter is automatically powered up at the start of the conversion, and goes to power- down state automatically at the end of the conversion. And the AK4182A is always powered down at this mode if CSN= "H". All touch screen driver switches except for YN switch are turned off and relative pins are open state. Only YN driver switch is turned ON and YN pin is forced to the ground in this case. PEN interrupt function is enabled except for the tracking time and conversion time even CSN= "L". Please see " PEN Interrupt" for the detail. The internal voltage reference is always power-down state. ADC ON Mode A/D converter is always powered up while CSN = "L". The internal voltage reference is always power-down state. If X-axis or Y-axis is selected as analog input, touch screen driver switches are always turned ON and the current flows through the touch plate if CSN= "L". This is effective if more settling time is required to suppress the electrical bouncing of touch plate. VREF ON Mode The internal voltage reference is always powered up regardless of CSN state. ADC is auto powerdown mode. PEN interrupt function is enabled at all the period except for the period from the 5DCLK to 20DCLK regardless of CSN state. ADC and VREF ON Mode A/D converter and the internal voltage reference is power-up state PEN interrupt function is disabled and PENIRQN is forced to "H" state if CSN= "H". The behavior of PENIRQN is the same as "ADC ON Mode" Table 4 Power-down Control 0 1 Enabled 1 0 Enabled 1 1 Disabled MS0482-E-00 12 2006/03 ASAHI KASEI [AK4182A] Serial Interface The AK4182A is controlled via 4-wire serial interface, CSN, DCLK, DIN, DOUT. Please see " Switching Characteristics" for the detail. CSN 1 DCLK S A2 A1 A0 MO SER/ DFR PD1 PD0 S A2 A1 A0 MO SER/ DFR PD1 PD0 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 DIN Hi-Z BUSY Hi-Z DOUT Touch Screen Driver SW 11 10 9 8 7 6 5 4 3 2 1 0 11 10 (SER/ DFR = "1", PD0 = "0" ) Touch Screen Driver (SER/ DFR = "0", PD0 = "0" ) Figure 7 Serial Interface BUSY and DOUT goes to "L" from Hi-Z state at the falling edge of CSN. The AK4182A latches the 8bit control word serially via DIN at the rising edge of DCLK. As the AK4182A starts the command decoding at the first "H" bit after CSN= "", MSB (S bit) of the command must be "H". Tracking time is the period from the falling edge of 5th DCLK to the falling edge of 8th DCLK. If SER/ DFR = "1", PD0= "0", and if analog input is X-axis or Y-axis (the measurement is the pen position or pen pressure), the touch screen driver switches are turned ON for this 3DCLK period. If SER/ DFR = "0", the switches are turned ON for the period from 5DCLK to 20 DCLK. BUSY is "H" for one DCLK period, which is from 8DCLK to 9DCLK. BUSY is "L" for other period. The AK4182A outputs A/D data with MSB first via DOUT from the falling edge of 9th DCLK. DIN must keep low state for minimum 7 DCLK times (9th-15th DCLK) after command is sent on the DIN. The AK4182A can output one A/D data per 15 DCLK clock cycles for the fastest way as shown in the dotted line of the Figure 7. MS0482-E-00 13 2006/03 ASAHI KASEI [AK4182A] Pen Interrupt The AK4182A has pen interrupt function to detect the pen touch. Pen interrupt function is enabled at power-down state. YN pin is connected to GND at the PEN interrupt enabled state. And XP pin is pulled up via an internal resistor (Ri), typically 50k. If touch plate is pressed by pen, the current flows via iii. It is recommended that the micro controller mask the pseudo-interrupts while the control command is issued or A/D data is output. IOVDD VCC Ri = 50k EN1 EN2 Driver OFF VCC PENIRQN XP YN Driver ON Figure 8 PENIRQ Functional Block Diagram MS0482-E-00 14 2006/03 ASAHI KASEI [AK4182A] Region i CSN 1 2 3 4 5 6 7 8 9 10 11 Region ii Region iii 12 13 14 15 16 17 18 19 20 21 22 23 24 DCLK DIN BUSY 11 10 9 8 7 6 5 4 3 2 1 0 S A2 A1 A0 MO SER/ DFR PD1 PD0 DOUT CONV Internal AXIS = ((!A2) & (!A1) & (A0)) | ((!A2) & (A1) & (A0)) | ((A2) & (!A1) & (!A0)) | ((A2) & (!A1) & (A0)); /* X-axis Measurement */ /* Z1 Measurement */ /* Z2 Measurement */ /* Y-axis Measurement */ EN1 = ((!CSN) & (!CONV) & AXIS & PD0) /* CSN="L", X/Y/Z1/Z2 Measurement, PD0 = 1, NOT "CONV period" */ | ((!CSN) & AXIS & CONV); /* CSN="L", X/Y/Z1/Z2 Measurement, "CONV period" */ EN2 = ((!CSN) & (!CONV) & (!PD0)) /* CSN="L", PD0 = 1, NOT "CONV period" */ | (CSN & (!(PD1& PD0)); /* CSN="H", (PD0, PD1) is not (1,1) */ MS0482-E-00 15 2006/03 ASAHI KASEI [AK4182A] Package 16pin QFN (Unit: mm) TOP VIEW 4.0 0.1 BOTTOM VIEW 2.1 0.15 #9 #12 #8 #13 A #5 #16 2.1 0.15 #4 #1 4.0 0.1 B #1Pin Indicator with Laser Maker 0.75 0.05 0.3 0.05 0.10 M PIN #1 I.D. (0.35 x45 ) EXPOSED THERMAL DIE PAD 0.08 Note: The thermal die pad is tied to PCB substrate (GND). Package & Lead frame material Package molding compound: Epoxy Lead frame material: Cu Lead frame surface treatment: Solder (Pb free) plate MS0482-E-00 0.2 0.65 16 2006/03 0.55 0.1 ASAHI KASEI [AK4182A] Marking 4182A XXXX 1 . XXXX: Date code identifier (4 digits) MS0482-E-00 17 2006/03 ASAHI KASEI [AK4182A] IMPORTANT NOTICE * These products and their specifications are subject to change without notice. Before considering any use or application, consult the Asahi Kasei Microsystems Co., Ltd. (AKM) sales office or authorized distributor concerning their current status. * AKM assumes no liability for infringement of any patent, intellectual property, or other right in the application or use of any information contained herein. * Any export of these products, or devices or systems containing them, may require an export license or other official approval under the law and regulations of the country of export pertaining to customs and tariffs, currency exchange, or strategic materials. * AKM products are neither intended nor authorized for use as critical components in any safety, life support, or other hazard related device or system, and AKM assumes no responsibility relating to any such use, except with the express written consent of the Representative Director of AKM. As used here: (a) A hazard related device or system is one designed or intended for life support or maintenance of safety or for applications in medicine, aerospace, nuclear energy, or other fields, in which its failure to function or perform may reasonably be expected to result in loss of life or in significant injury or damage to person or property. (b)A critical component is one whose failure to function or perform may reasonably be expected to result, whether directly or indirectly, in the loss of the safety or effectiveness of the device or system containing it, and which must therefore meet very high standards of performance and reliability. * It is the responsibility of the buyer or distributor of an AKM product who distributes, disposes of, or otherwise places the product with a third party to notify that party in advance of the above content and conditions, and the buyer or distributor agrees to assume any and all responsibility and liability for and hold AKM harmless from any and all claims arising from the use of said product in the absence of such notification. MS0482-E-00 18 2006/03 |
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