ADNS-2080 low power optical mouse sensor data sheet description the avago technologies ADNS-2080 is a low power, small form factor optical mouse sensor. it has a new low-power architecture and automatic power management modes, making it ideal for battery, power-sensitive applications C such as cordless input devices. the ADNS-2080 is capable of high-speed motion detec- tion C up to 30 ips and 20 g. in addition, it has an on-chip oscillator and requires an external resistor to set the led current. the ADNS-2080 along with the adns-5110-001 lens, adns-5200 clip, and hsdl-4261 ir led, or hlmp-eg3e red led form a complete and compact mouse tracking system. there are no moving parts and this translates to high reliability and less maintenance for the end user. in addition, precision optical alignment is not required, fa- cilitating high volume assembly. the sensor is programmed via registers through a two- wire serial port. it is housed in an 8-pin staggered dual in-line package (dip). features � low power architecture � small form factor � programmable periods / response times and downshift times from one mode to another for the power-saving modes � high speed motion detection up to 30 ips and 20 g � external interrupt output for motion detection � internal oscillator C no clock input needed � selectable resolution of up to 2000 cpi � operating voltage: as low as 2.1 v � io reference voltage of 1.7 v to 3.3 v � 2-wire serial port interface applications � optical mice and optical trackballs � integrated input devices � battery-powered input devices
2 theory of operation the ADNS-2080 is based on optical navigation technol- ogy, which measures changes in position by optically acquiring sequential surface images (frames) and math- ematically determining the direction and magnitude of movement. the ADNS-2080 contains an image acquisition system (ias), a digital signal processor (dsp), and a two wire serial port. the ias acquires microscopic surface images via the lens and illumination system. these images are processed by the dsp to determine the direction and distance of motion. the dsp calculates the dx and dy relative dis- placement values. an external microcontroller reads and translates the dx and dy informa tion from the sensor serial port into ps2, usb, or rf signals before sending them to the host pc. pinout of ADNS-2080 optical mouse sensor pin name input/ output description 1 sdio i/o serial data input/output 2 led i led illumination 3 motion o motion interrupt output (default active low, edge triggered) 4 vddio i input/output reference voltage 5 sclk i serial clock 6 gnd i ground 7 vdd o regulator output 8 vdda i supply voltage figure 1. package outline drawing (top view) 5 sclk 1 sdio 2 led 3 motion 4 vddio 6 gnd 7 vdd 8 vdda a2080 xyywwz
3 figure 2. package outline drawing caution: it is advised that normal static precautions be taken in handling and assembling of this component to prevent damage and/or degradation which may be induced by esd. 0 . 50 0 . 020 lead width 9.9 0 0 . 3 9 0 1. 00 0 . 03 9 lead o set 2 . 00 0 . 07 9 lead pitch 2 . 00 0 . 07 9 ? 5 protective kapton tape 0 . 80 0 . 03 0 . 03 1 0 . 00 1 ? c lear o ptical path 4 . 45 0 .1 75 4 . 55 0 .1 7 9 pin 1 5 . 60 0 . 03 0 . 220 0 . 00 1 ? 0 . 04 0 . 002 () 2 . 54 0 .1 00 () s ection a C a notes: 1. dimensions in milimeter / inches. 2. dimensional tolerance: 0.1mm. 3. coplanarity of leads: 0.1mm. 4. lead pitch tolerance: 0.15mm. 5. cumulative pitch tolerance: 0.15mm. 6. angular tolerance: 3. 7. maximum ash: 0.2mm. 1 2 . 85 0 . 45 0 . 506 0 . 0 1 8 ( a t lead tip) 1. 0 9 0 . 03 0 . 043 0 . 00 1 9.1 0 0 . 358 1 2 . 85 0 . 506 ( a t shoulder) 4 . 30 0 .1 6 9 5 .1 5 0 . 203 9 0 3
4 overview of optical mouse sensor assembly avago technologies provides an iges le drawing de scribing the base plate molding features for lens and pcb align- ment. the ADNS-2080 sensor is designed for mounting on a through-hole pcb, looking down. there is an aperture stop and features on the package that align to the lens. the adns-5110-001 lens provides optics for the imaging of the surface as well as the illumination of the surface at the optimum angle. features on the lens align it to the sensor, base plate, and clip with the led. the adns-5200 clip holds the led in relation to the lens. the led must be inserted into the clip and the leds leads formed prior to loading on the pcb. the leds recommended for illumination include hsdl-4261 ir led and hlmp-eg3e red led. figure 3. recommended pcb mechanical cutouts and spacing notes: 1. dimensions in millimeter/inches 2. view from component side of pcb (or top view of mouse) 26 1 . 024 25 . 00 0 .9 84 2x 24 . 15 0 .9 51 2x 14 .9 4 0 . 588 14 . 5 0 . 571 13 . 06 0 . 514 pi n 1 0 o p t ica l ce nt er o p t io n a l h o l e f or a l i gnm e nt pos t i f u sed cl ear z o n e 0 0 . 80 0 . 031 10x ? 3 . 00 0 . 118 ? 2 . 00 0 . 07 9 3x 1 . 00 0 . 03 9 0 . 383 999 0 . 015118 1 . 37 0 . 054 2 . 25 0 . 08 9 5 . 02 0 . 1 9 8 7 . 56 0 . 2 9 8 10 . 35 0 . 407 11 . 22 0 . 442 12 . 60 0 . 4 9 6 12 .9 0 . 508 0 . 3 0 . 012 6 . 2 9 0362 0 . 247652
5 note: a C distance from object surface to lens reference plane b C distance from object surface to sensor reference plane figure 5. distance from lens reference plane to tracking surface (z) important note: pin 1 of sensor should be located nearest to the led figure 4. 2d assembly drawing of ADNS-2080 (top and side view) s e n sor su r f ace l e n s r e f ere n ce p l a n e l e n s b a 6 . 87 0 . 271 2 . 40 0 . 0 9 4 pi n 1 33 . 45 1 . 317 13 . 10 0 . 516 a a led cl ip led l e n s s e n sor p cb al i gnm e nt pos t (o p t io n a l) b ase p l a t e s ec t io n a ? a 10 . 60 0 . 417 2 . 40 0 . 0 9 4 7 . 45 0 . 2 9 3
6 pcb assembly considerations 1. insert the sensor and all other electrical components into pcb. 2. insert the led into the assembly clip and bend the leads 90 degrees. 3. insert the led clip assembly into pcb. 4. wave solder the entire assembly in a no-wash solder process utilizing solder xture. the solder xture is needed to protect the sensor during the solder process. it also sets the correct sensor-to-pcb distance as the lead shoulders do not normally rest on the pcb surface. the xture should be designed to expose the sensor leads to solder while shielding the optical aperture from direct solder contact. 5. place the lens onto the base plate. 6. remove the protective kapton tape from optical aperture of the sensor. care must be taken to keep contaminants from entering the aperture. recommend not to place the pcb facing up during the entire mouse assembly process. recommend to hold the pcb rst vertically for the kapton removal process. 7. insert pcb assembly over the lens onto the base plate aligning post to retain pcb assembly. the sensor aperture ring should self-align to the lens. figure 7. block diagram of ADNS-2080 optical mouse 8. the optical position reference for the pcb is set by the base plate and lens. note that the pcb motion due to button presses must be minimized to maintain optical alignment. 9. install mouse top case. there must be a feature in the top case to press down onto the pcb assembly to ensure all components are interlocked to the correct vertical height. cu s t o m er s u pp l ied b ase p l a t e w i th reco mm e n ded a l i gnm e nt f ea tu res per iges dra w i ng adns-5110-001 cu s t o m er s u pp l ied p cb ADNS-2080 (s e n sor ) led cl ip led important note: ir led is recommended for lower power consumption. figure 6. exploded view of assembly ADNS-2080 p ower and control led drive image array ds p oscillator serial p ort and registers sdio sclk motion vdd vdda led gnd vddio
7 figure 8a. schematic diagram for ADNS-2080-lg mainboard (cordless application) com nc no sw2 com nc no sw3 com nc no sw4 q1 z-encoder_3p sw5 tact_sw com za zb r14 1m r13 1m s1 s4 s3 s3 r1 1 2 8 3 4 5 12 13 sw1 slide sw spdt p1 bt1 2aa battery p7 p16 p3 p4 p5 6 p17 p18 p19 7 vbat gnd vdd_led p12 p13 p14 p15 p11 9 p10 p9 p2 u1 as1336 con1 pcb_skt_smd_1.27/2x5 2 s g o r p r2 s1 r1 reset reset prog msck com motion r1 r2 s1 s2 s3 s4 r0 cs miso mosi za zb p20 c6 4.7uf.16v c1 22uf/6.3v c3 22uf/6.3v l1 4.7uh l2 4.7uh r4 887k r3 470k c5 22pf r1 825k r2 470k c4 22pf p6 p8 p23 p24 d5 led c11 100nf r17 0r + c9 2.2uf/16v p21 p22 r9 0r r5 rext r10 1m r11 1m r12 1m 11 10 1 u5 ADNS-2080 mosi c2 4.7uf/16v cs miso mosi vddio sdio msck motion 14 p25 p29 p28 p27 p26 r7 1m r6 1m r0 vcc_dc1 vcc_dc2
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10 table 2. recommended operating condition parameter symbol min typ. max units notes operating temperature t a 040 � c power supply voltage v dda 2.1 2.2 3.3 v v ddio 1.7 1.8 3.3 v power supply rise time t rt 0.15 20 ms 0 to v dda min/v ddio min supply noise (sinusoidal) v na 100 mvp-p 10 khz C50 mhz serial port clock frequency f sclk 1 mhz 50% duty cycle distance from lens reference plane to tracking surface (z) z 2.3 2.4 2.5 mm speed 1 s 0 30 ips at default frame rate acceleration a 20 g at run mode load capacitance c out 100 pf sdio and motion note: 1. for higher than 500 dpi setting, use 12-bit motion reporting to achieve the maximum speed design considerations for improved esd performance for improved electrostatic discharge performance, typical creepage and clearance distance are shown in the table below. assumption: base plate construction is as per the avago technologies supplied iges le and adns-5110- 001 lens. note that the lens material is polycarbonate or polysty rene hh30. therefore, cyanoacrylate based adhe- sives or other adhesives that may damage the lens should not be used. typical distance (mm) creepage 16.0 clearance 2.0 regulatory requirements � passes fcc b and worldwide analogous emission limits when assembled into a mouse with shielded cable and following avago technologies recommendations. � ul ammability level ul94 v-0. table 1. absolute maximum ratings parameter symbol minimum maximum units notes storage temperature t s -40 85 � c operating temperature t a -15 55 � c lead solder temperature v o 260 � c for 10 seconds, 1.6 mm below seating plane. supply voltage v dda -0.5 3.6 v v ddio 3.6 v esd 2 kv all pins, human body model jesd22-a114 input voltage v in -0.5 3.6 v all i/o pins
11 table 3. ac electrical specications electrical characteristics over recommended operating conditions. typical values at 25 c, v dda = 2.2 v, v ddio = 1.8 v. parameter symbol min. typ. max. units notes motion delay after reset t mot-rst 50 ms from reset register write to valid motion forced rest enable t rest-en 1 s from rest mode(rm) bits set to target rest mode wake from forced rest t rest-dis 1 s from rest mode(rm) bits cleared to valid motion power down t pd 50 ms from pd active (when bit 1 of register 0x0d is set) to low current wake from power down t wakeup 55 ms through reset register 0x3a. from pd inactive to valid motion sdio rise time t r-sdio 60 200 ns c l = 100 pf sdio fall time t f-sdio 40 200 ns c l = 100 pf sdio delay after sclk t dly-sdio 120 ns from sclk falling edge to sdio data valid, no load conditions sdio hold time t hold-sdio 250 1/f sclk ns data held until next falling sclk edge sdio timeout after failure t timeout-sdio 50 ms quiet time needed for the spi block to reset when it fails? spi time between write commands t sww 30 � s from rising sclk for last bit of the rst data byte, commands to rising sclk for last bit of the second data byte spi time between write and read commands t swr 20 � s from rising sclk f or last bit of the rst data byte, to rising sclk for last bit of the second address byte spi time between read and subsequent commands t srw t srr 250 ns from rising sclk for last bit of the rst data byte, to falling sclk for the rst bit of the next address spi read address- data delay t srad 4 � s from rising sclk for last bit of the address byte, to falling sclk for rst bit of data being read transient supply current i ddt 60 ma max supply current during a v dda ramp from 0 to v dda with min 150 � s and max 20 ms rise time. (does not include charging currents for bypass capacitors.)
12 table 4. dc electrical specications electrical characteristics over recommended operating conditions. typical values at 25 c, v dda = 2.2 v, v ddio = 1.8 v, vdd led = 2.2 v, irled hsdl-4261, r led = 59 � . parameter symbol min typ. max units notes dc supply current in various mode i dd_avg 1.5 ma average sensor current at max frame rate. no load on sdio average led current at max frame rate. no load on sdio i dd_rest1 110 � a i dd_rest2 34 � a i dd_rest3 18 � a i ddled_avg 1.4 ma i ddled_rest1 130 � a i ddled_rest2 26 � a i ddled_rest3 5 � a power down current 10 � a input low voltage v il 0.3* v ddio v sclk, sdio input high voltage v ih 0.7* v ddio v sclk, sdio input hysteresis v i_hys 200 mv sclk, sdio input leakage current i leak ��� 1 ��� 10 � a vin = v ddio or 0 v output low voltage v ol 0.45 v iout = 1 ma, sdio, motion output high voltage v oh v ddio -0.45 v iout = -1 ma, sdio, motion input capacitance c in 50 pf sdio, sclk
13 synchronous serial port the synchronous serial port is used to set and read pa- rameters in the ADNS-2080, and to read out the motion information. the port is a two wire serial port. the host micro-con troller always initiates communication; the ADNS-2080 never initiates data transfers. sclk and sdio may be driven directly by a micro-controller. the lines that comprise the spi port: sclk: clock input. it is always generated by the master (the micro-controller). sdio: input/output data. power management modes the ADNS-2080 has three power-saving modes. each mode has a dierent motion detection period with its re- spective response time to mouse motion. response time is the time taken for the sensor to wake up from rest mode when motion is detected. when left idle, the sensor auto- matically changes or downshift from run mode to rest1, to rest2 and nally to rest3 which consumes the least cur- rent. do note that current consumption is the lowest at rest3 and highest at rest1, however time required for sen- sor to respond to motion from rest1 is the shortest and longest from rest3. downshift time is the elapsed time (under no motion condition) from current mode to the next mode for example, it takes 10s for the sensor that is in rest1 to change to rest2. the typical response time and downshift time for each mode is shown in the following table. however, user can change the default time setting for each mode via register 0x0e through 0x13. mode response time (typical) downshift time (typical) rest 1 20 ms <1 s rest 2 100 ms 10 s rest 3 500 ms 600 s note: these default timings are subject to changes after characterization. another feature in ADNS-2080 that can be used to opti- mize the power consumption of the optical mouse system is the motion interrupt output or motion pin (pin 3). it allows the host controller to be in sleep mode (or lowest operating current mode) when there is no motion detect- ed after some time instead of consistently be in active mode and polling motion data from the sensor. when motion is detected, the sensor will send the motion inter- rupt signal through pin 3 to the controller to wake it up from sleep mode to resume its motion detection routine for navigation position and direction update. motion detection routine typically in the motion detection routine, mcu will poll the sensor for valid motion data by checking on the motion_st bit in motion_st register. if motion_st bit is set, motion data in delta registers is valid and ready to be read by the mcu. for 8-bit motion reporting the delta registers are delta_x and delta_y and for 12-bit motion reporting the delta registers are delta_x, delta_y and delta_xy_high. motion function motion output signal (pin 3) can be used as interrupt in- put to the microcontroller of the mouse to trigger the con- troller to read the motion data from the sensor whenever there is motion detected by the sensor. the motion sig- nal can be congured to be level or edge triggered, active high or low by setting the bits in motion_ctrl register. for active high level-triggered conguration, the motion pin level will be driven high as long the motion bit in register 0x02 is set and there is motion data in delta registers ready to be read by the microcontroller. once all the motion data has been read, delta registers value become zero, motion bit is reset and the motion pin level is driven low. for active high edge-triggered conguration, a pulse of 380ns (typical) will be sent through the motion pin when there is motion detected by the sensor during rest modes. the pulse can be used as interrupt input to activate the microcontroller from its sleep mode to enter into run mode to start polling the sensor for motion data by moni- toring motion_st bit (set whenever there is valid motion data) in motion register (0x02) and reading delta regis- ters until motion_st bit is reset.
14 write operation write operation, dened as data going from the micro-controller to the ADNS-2080, is always initiated by the micro- controller and consists of two bytes. the rst byte contains the address (seven bits) and has a 1 as its msb to indicate write sequence. the second byte contains the data. the ADNS-2080 reads sdio on rising edges of sclk sdio setup and hold time during write operation 1 1 2 3 4 5 678 9 10 11 12 13 14 15 16 2 1 d 0 d 5 d 6 d 7 a 0 a 1 a 2 a 3 a 4 a 5 a 6 1a 6 d 4 d 3 d 2 d 1 sclk ncs mosi mosi driven by micro-controller miso 1 1 2 3 4 5 678 9 10 11 12 13 14 15 16 2 1 d 0 d 5 d 6 d 7 a 0 a 1 a 2 a 3 a 4 a 5 a 6 1a 6 d 4 d 3 d 2 d 1 sclk ncs sdio sdio driven by micro-controller t se tu p -w ri t e t h o l d -w ri t e sclk sdio
15 sdio delay and hold time during read operation read operation a read operation, dened as data going from the slave to the micr ocontroller, is always initiated by the microcontroller and consists of two bytes. the rst byte contains the address, is sent by the microcontroller over slave sdio, and has a 0 as its msb to indicate data direction. the second byte contains the data and is driven by the slave over sdio. the sensor outputs data bits on falling edges of sclk. required timing between read and write commands there are minimum timing requirements between read and write commands on the serial port. timing between two write commands if the rising edge of the sclk for the last data bit of the second write command occurs before the required delay (t sww ), then the rst write command may not complete correctly. 1 2 3 4 5 6 7 8 sclk cy c l e # sclk sdio 0 a 6 a 5 a 4 a 3 a 2 a 1 a 0 9 10 11 12 13 14 15 16 d 6 d 5 d 4 d 3 d 2 d 1 d 0 d 7 ncs t srad delay sclk-ncs sclk sdio d 0 t hold-read t dly-read note: the 500 ns minimum high state of sclk is also the minimum sdio data hold time of the ADNS-2080. since the falling edge of sclk is actually the start of the next read or write command, the ADNS-2080 will hold the state of data on sdio until the falling edge of sclk. sclk t sww write o p eration address data write o p eration address data
16 timing between write and read commands if the rising edge of sclk for the last address bit of the read command occurs before the required delay (t swr ), the write command may not complete correctly. timing between read and subsequent write or read commands during a read operation sclk should be delayed at least t srad after the last address data bit to ensure that the ADNS-2080 has time to prepare the requested data. the falling edge of sclk for the rst address bit of either the read or write com- mand must be at least t srr or t srw after the last sclk rising edge of the last data bit of the previous read operation. motion burst timing sclk t swr write o p eration address data next read o p eration address �t���t���t�� �t���t���t�� sclk t srad read o p eration address next read or write o p eration address �t���t���t�� �t���t���t�� t srw & t srr data motion_burst register address read first byte first read o p eration read second byte read third byte sclk �t���t���t�� �t���t���t�� t srad
17 burst mode operation burst mode is a special serial port operation mode that may be used to reduce the serial transaction time for a motion read. the speed improvement is achieved by con- tinuous data clocking to or from multiple registers with- out the need to specify the register address, and by not requiring the normal delay period between data bytes. burst mode is initiated by reading the motion_burst register (0x63). the ADNS-2080 will respond with the con- tents of the delta_x, delta_y, squal, shut_hi, shut_lo, and pix_max and pix_accum registers in that order. the default value in burst_read_first register (0x42) is the address of the delta_x register. the address that is speci- ed in the burst_read_first register can be changed to address 0x00 C 0x02 (prod_id C motion_st) or 0x05 C 0x08 (squal C pix_max). in 12-bit motion reporting there will be an extra content in delta_xy_high (register 0x0c), to be read out in the order of delta_x, delta_y,? delta_xy_high, squal, shut_hi, shut_lo, pix_max and pix_accum. the rest of the burst mode operation is the same as 8-bit motion reporting. the default value in burst_last_read register (0x44) is the address of pix_accum register. this last address setting must be larger than the rst address setting, address 0x01-0x02 (rev_id - motion_st), or ?0x04 C 0x09 (delta_y C pix_accum) or 0x0c (delta_xy_high) if 12-bit motion reporting is set. the burst read must continue until the? last specied address in order for the io to be back to normal mode. after reading the motion_burst address (0x63), the microcontroller must wait t srad before starting to read the continuous data bytes. all data bits can be read with no delay between bytes by driving sclk at the normal rate. the data are latched into the output buer after the last address bit is received. reset during power-up, the ADNS-2080 does not need a power on reset as there is an internal circuitry that performs power on reset in the sensor. however it can be reset by writing 0x5a to register 0x3a. a full reset will thus be executed and any register settings must be reloaded. power down the ADNS-2080 can be set to power down mode by writ- ing 0x02 to register 0x0d to disable the sensor. in addition, the spi port should not be accessed during power down. the table below shows the state of various pins during power down. to exit power down, write 0x5a to register 0x3a to reset the sensor in order to wake it up. a full reset will thus be executed. wait t wakeup before accessing the spi port. any register settings must then be reloaded. pin during power down motion undened sclk functional* sdio functional* xy_led low current notes: * reading of registers should only be performed after exiting from the power down mode. any read operation during power down will not reect the actual data of the registers.
18 registers the ADNS-2080 registers are accessible via the serial port. the registers are used to read motion data and status as well as to set the device conguration. address register name register description read/write default value 0x00 prod_id product id r 0x2a 0x01 rev_id revision id r 0x00 0x02 motion_st motion status r 0x00 0x03 delta_x lower byte of delta_x r 0x00 0x04 delta_y lower byte of delta_y r 0x00 0x05 squal squal quality r 0x00 0x06 shut_hi shutter open time (upper 8-bit) r 0x00 0x07 shut_lo shutter open time (lower 8-bit) r 0x64 0x08 pix_max maximum pixel value r 0xd0 0x09 pix_accum average pixel value r 0x80 0x0a pix_min minimum pixel value r 0x00 0x0b pix_grab pixel grabber r/w 0x00 0x0c delta_xy_high upper 4 bits of delta x and y displacement r 0x00 0x0d mouse_ctrl mouse control r/w 0x01 0x0e run_downshift run to rest1 time r/w 0x08 0x0f rest1_period rest1 period r/w 0x01 0x10 rest1_downshift rest1 to rest2 time r/w 0x1f 0x11 rest2_period rest2 period r/w 0x09 0x12 rest2_downshift rest2 to rest3 time r/w 0x2f 0x13 rest3_period rest3 period r/w 0x31 0x22 performance performance r/w 0x00 0x3a reset reset w 0x00 0x3f not_rev_id inverted revision id r 0x 0x40 led_ctrl led control r/w 0x00 0x41 motion_ctrl motion control r/w 0x40 0x42 burst_read_first burst read starting register r/w 0x03 0x44 burst_read_last burst read ending register r/w 0x09 0x45 rest_mode_config rest mode conguration r/w 0x00 0x63 motion_burst burst read r 0x00
19 prod_id address: 0x00 product id register access: read reset value: 0x2a bit76543210 field pid7 pid6 pid5 pid4 pid3 pid2 pid1 pid0 data type: 8-bit unsigned integer usage: this register contains a unique identication assigned to the ADNS-2080. the value in this register does not change; it can be used to verify that the serial communications link is functional. rev_id address: 0x01 product id register access: read reset value: 0x00 bit76543210 field rid7 rid6 rid5 rid4 rid3 rid2 rid1 rid0 data type: 8-bit unsigned integer usage: this register contains the ic revision. it is subject to change when new ic versions are released. motion_st address: 0x02 motion status register access: read/write reset value: 0x00 bit7 6543210 field motion_st rsvd rsvd rsvd rsvd rsvd rsvd rsvd data type: bit eld. usage: register 0x02 allows the user to determine if motion has occurred since the last time it was read. if the motion_ st bit is set, then the user should read registers 0x03 (delta_x) and 0x04 (delta_y) to get the accumulated motion data. read this register before reading the delta_x and delta_y registers. writing any data into this register clears motion_st bit, delta_x and delta_y registers. however the written data byte will not be saved. bit field name description 7 motion_st motion detected since last report 0 = no motion (default) 1 = motion occurred, data in delta_x and delta_y registers ready to be read 6-0 rsvd reserved
20 delta_x address: 0x03 x displacement register access: read reset value: 0x00 bit76543210 field x7 x6 x5 x4 x3 x2 x1 x0 data type: eight bit 2s complement number. usage: x-axis movement in counts since last report. absolute value is determined by resolution. reading this register clears the content of this register. 00 01 02 7e 7f +127 +126 +1 +2 ff fe 82 81 0 -1 -2 -126 -127 m o t io n d e lt a _x 00 01 02 7e 7f +127 +126 +1 +2 ff fe 81 80 0 -1 -2 -127 -128 m o t io n d e lt a _x note: avago recommends that registers 0x03, 0x04 and 0x0c be read consecutively in 12-bit motion reporting. delta_y address: 0x04 y displacement register access: read reset value: 0x00 bit76543210 field y7 y6 y5 y4 y3 y2 y1 y0 data type: eight bit 2s complement number. usage: y-axis movement in counts since last report. absolute value is determined by resolution. reading this register clears the content of this register. 00 01 02 7e 7f +127 +126 +1 +2 ff fe 82 81 0 -1 -2 -126 -127 m o t io n d e lt a _y 00 01 02 7e 7f +127 +126 +1 +2 ff fe 81 80 0 -1 -2 -127 -128 m o t io n d e lt a _y note: avago recommends that registers 0x03, 0x04 and 0x0c be read consecutively in 12-bit motion reporting.
21 figure 14. mean squal vs. z (white paper) squal address: 0x05 squal quality register access: read reset value: 0x00 bit76543210 field sq7 sq6 sq5 sq4 sq3 sq2 sq1 sq0 data type: upper 8 bits of a 9-bit unsigned integer. usage: squal (surface quality) is a measure of the number of valid features visible by the sensor in the current frame. the maximum squal register value is 180. since small changes in the current frame can result in changes in squal, variations in squal when looking at a surface are expected. the graph below shows 250 sequentially acquired squal values, while a sensor was moved slowly over white paper. squal is nearly equal to zero, if there is no surface below the sensor. squal is typically maximized when the navigation surface is at the opti- mum distance from the imaging lens (the nominal z-height). figure 9. squal values (white paper) 0 10 20 30 40 50 60 15510 9 163 217 271 325 37 9 433 487 541 5 9 564 9 703 757 811 865 c o unt squ a l squ a l v a lu e m ea n squal v s z -10 0 10 20 30 40 50 60 -0 . 8-0 . 6-0 . 4-0 . 200 . 20 . 40 . 60 . 81 d e lt a f ro m n o m i n a l f oc u s (mm) squ a l co unt avg-3 si gm a avg avg+3 si gm a
22 shut_hi address: 0x06 shutter open time (upper 4-bits) register access: read reset value: 0x01 bit76543210 field reserved reserved reserved reserved s11 s10 s9 s8 shut_lo address: 0x07 shutter open time (lower 8-bits) register access: read reset value: 0x64 bit76543210 field s7 s6 s5 s4 s3 s2 s1 s0 data type: twelve bit unsigned integer. usage: units are in clock cycles. read shut_hi rst, then shut_lo. they should be read consecutively. the shutter is adjusted to keep the average and maximum pix el values within normal operating ranges. the shutter value is automatically adjusted. pix_max address: 0x08 maximum pixel value register access: read reset value: 0x00 bit76543210 field mp7 mp6 mp5 mp4 mp3 mp2 mp1 mp0 data type: eight-bit number. usage: store the highest pixel value in current frame. minimum value = 0, maximum value = 254. the highest pixel value may vary with dierent frame. pix_accum address: 0x09 accumulated pixel value register access: read reset value: 0x00 bit76543210 field ap7 ap6 ap5 ap4 ap3 ap2 ap1 ap0 data type: high 8-bits of an unsigned 17-bit integer. usage: this register stores the accumulated pixel value of the last image taken. this register can be used to nd the average pixel value, where average pixel = (register value ap[7:0]) * 1.058. the maximum accumulated value is 122936 but only bits [16:9] are reported, therefore the maximum register value is 240. the minimum is 0. the pix_accum value may vary with dierent frame.register value is 240. the minimum is 0. the pix_accum value may vary with dierent frame.
23 pix_min address: 0x0a minimum pixel value register access: read reset value: 0x00 bit76543210 field mp7 mp6 mp5 mp4 mp3 mp2 mp1 mp0 data type: eight-bit number. usage: store the lowest pixel value in current frame. minimum value = 0, maximum value = 254. the minimum pixel value may vary with dierent frame. pix_grab address: 0x0b pixel grabber register access: read reset value: 0x00 bit76543210 field pg_valid pg6 pg5 pg4 pg3 pg2 pg1 pg0 data type: eight bit word. usage: the pixel grabber captures 1 pixel per frame. bit-7 (msb) of this register will be set to indicate that the 7-bit pixel data (pg[6:0]) is valid for grabbing. in 22x22 pixel arrays, it will take 484 read operations to grab all the pixels to form the complete image. bit(s) field name description 7 pg_valid pixel grabber valid 6:0 pg[6:0] pixel data note: any write operation into this register will reset the grabber to origin (pixel 0 position). the sensor should not be moved before the 484 read operations are completed to ensure original data is grabbed to produce good (uncorrupted) image. 22x22 pixel array address map C (view from top of sensor) posi t i v e y posi t i v e x t op x- ra y v ie w o f m o u se pi n 1 l e ft butt o n r i ght butt o n led 5 sclk 6 gnd 7 vdd 8 vdda 3 motion 4 vddio 1 sdio 2 led a2080 xyywwz 462 440 418 396 374 352 330 308 286 264 242 220 198 176 154 132 110 88 66 44 22 0 first 463 441 419 397 375 353 331 309 287 265 243 221 199 177 155 133 111 89 67 45 23 1 464 442 420 398 376 354 332 310 288 266 244 222 200 178 156 134 112 90 68 46 24 2 465 443 421 399 377 355 333 311 289 267 245 223 201 179 157 135 113 91 69 47 25 3 466 444 422 400 378 356 334 312 290 268 246 224 202 180 158 136 114 92 70 48 26 4 467 445 423 401 379 357 335 313 291 269 247 225 203 181 159 137 115 93 71 49 27 5 468 446 424 402 380 358 336 314 292 270 248 226 204 182 160 138 116 94 72 50 28 6 469 447 425 403 381 359 337 315 293 271 249 227 205 183 161 139 117 95 73 51 29 7 470 448 426 404 382 360 338 316 294 272 250 228 206 184 162 140 118 96 74 52 30 8 471 449 427 405 383 361 339 317 295 273 251 229 207 185 163 141 119 97 75 53 31 9 472 450 428 406 384 362 340 318 296 274 252 230 208 186 164 142 120 98 76 54 32 10 473 451 429 407 385 363 341 319 297 275 253 231 209 187 165 143 121 99 77 55 33 11 474 452 430 408 386 364 342 320 298 276 254 232 210 188 166 144 122 100 78 56 34 12 475 453 431 409 387 365 343 321 299 277 255 233 211 189 167 145 123 101 79 57 35 13 476 454 432 410 388 366 344 322 300 278 256 234 212 190 168 146 124 102 80 58 36 14 477 455 433 411 389 367 345 323 301 279 257 235 213 191 169 147 125 103 81 59 37 15 478 456 434 412 390 368 346 324 302 280 258 236 214 192 170 148 126 104 82 60 38 16 479 457 435 413 391 369 347 325 303 281 259 237 215 193 171 149 127 105 83 61 39 17 480 458 436 414 392 370 348 326 304 282 260 238 216 194 172 150 128 106 84 62 40 18 481 459 437 415 393 371 349 327 305 283 261 239 217 195 173 151 129 107 85 63 41 19 482 460 438 416 394 372 350 328 306 284 262 240 218 196 174 152 130 108 86 64 42 20 last 483 461 439 417 395 373 351 329 307 285 263 241 219 197 175 153 131 109 87 65 43 21
24 delta_xy_high address: 0x0c upper 4 bits delta-x/y displacement register access: read reset value: 0x00 bit76543210 field delta_x_ hi3 delta_x_ hi2 delta_x_ hi1 delta_x_ hi0 delta_y_ hi3 delta_y_ hi2 delta_y_ hi1 delta_y_ hi0 data type: eight bit 2s complement number. usage: concatenate the values to have a 12-bit reporting for the motion. x motion = {delta_xy_high[7:4], delta_x} , y motion = delta_xy_high[3:0], delta_y} bit(s) field name description 7:4 delta_x_hi upper 4 bits of delta_x displacement for 12-bit reporting 3:0 delta_y_hi upper 4 bits of delta_y displacement for 12-bit reporting note: avago recommends that registers 0x03, 0x04 and 0x0c be read consecutively in 12-bit motion reporting. mouse_ctrl address: 0x0d mouse control register access: read/write reset value: 0x01 bit7 6543210 field bit_ reporting rsvd res_en res2 res1 res0 pd res_d data type: bit eld. usage: resolution and chip reset information can be accessed or to be edited by this register. bit(s) field name description 7 bit_reporting 0x0: 8-bit motion reporting 0x1: 12-bit motion reporting. read register 0x03, 0x04 and 0x0c. 6 rsvd reserved 5 res_en enable resolution settings set on mouse_ctrl [4:2] 4:2 res [2:0] resolution 0x0: 1000 dpi (default) 0x1: 250 dpi 0x2: 500 dpi 0x3: 1250 dpi 0x4: 1500 dpi 0x5: 1750 dpi 0x6: 2000 dpi 1 pd power down 0 res_d 0x0: 500 dpi 0x1: 1250 dpi (default) note: setting mouse_ctrl [5] bit to 1 will supersede and ignore mouse_ctrl [0] setting.
25 run_downshift address: 0x0e run to rest1 time register access: read/write reset value: 0x08 bit76543210 field rud7 rud6 rud5 rud4 rud3 rud2 rud1 rud0 data type: eight bit number. usage: this register sets the run to rest1 mode downshift time. the time is the value of this register multiply by 8 times of position mode period (default is 4ms). default downshift time = 8 * 8 * 4 = 256 ms note: writing into this register when the sensor itself is operating in this rest mode may result in unexpected behavior of the sensor. to avoid this from happening, below commands should be incorporated prior and after the write command into this register. w 22 40 ?-> write 0x40h into register 0x22h prior to writing into this register w 0e xx? -> writing into this register w 22 00? -> write 0x00h into register 0x22h after writing into this register rest1_period address: 0x0f rest1 period register access: read/write reset value: 0x01 bit76543210 field rip7 rip6 rip5 rip4 rip3 rip2 rip1 rip0 data type: eight bit number. usage: this register sets the rest1 period. period = (register value r1p [7:0] +1) x 10ms (typical slow clock period). min value for this register is 0x01 . max value is 0xfd. note: writing into this register when the sensor itself is operating in this rest mode may result in unexpected behavior of the sensor. to avoid this from happening, below commands should be incorporated prior and after the write command into this register. w 22 40 ?-> write 0x40h into register 0x22h prior to writing into this register w 0f xx? -> writing into this register w 22 00? -> write 0x00h into register 0x22h after writing into this register
26 rest1_downshift address: 0x10 rest1 to rest2 downshift time register access: read/write reset value: 0x1f bit76543210 field r1d7 r1d6 r1d5 r1d4 r1d3 r1d2 r1d1 r1d0 data type: eight bit number. usage: this register sets the rest1 to rest2 mode downshift time. time = (register value r1d [7:0]) x (rest1 period) x 16. min value for this register is 0x01. note: writing into this register when the sensor itself is operating in this rest mode may result in unexpected behavior of the sensor. to avoid this from happening, below commands should be incorporated prior and after the write command into this register. w 22 40 ?-> write 0x40h into register 0x22h prior to writing into this register w 10 xx? -> writing into this register w 22 00? -> write 0x00h into register 0x22h after writing into this register rest2_period address: 0x11 rest2 period register access: read/write reset value: 0x09 bit76543210 field r2p7 r2p6 r2p5 r2p4 r2p3 r2p2 r2p1 r2p0 data type: eight bit number. usage: this register sets the rest2 period. period = (register value r2p [7:0] +1) x 10ms (typical slow clock period). min value for this register is 0x01. max value is 0xfd. note: writing into this register when the sensor itself is operating in this rest mode may result in unexpected behavior of the sensor. to avoid this from happening, below commands should be incorporated prior and after the write command into this register. w 22 40 ?-> write 0x40h into register 0x22h prior to writing into this register w 11 xx? -> writing into this register w 22 00? -> write 0x00h into register 0x22h after writing into this register
27 rest2_downshift address: 0x12 rest2 to rest3 downshift time register access: read/write reset value: 0x2f bit76543210 field r2d7 r2d6 r2d5 r2d4 r2d3 r2d2 r2d1 r2d0 data type: eight bit number. usage: this register sets the rest1 to rest2 mode downshift time. time = (register value r2d [7:0] ) x (rest2 period) x 128. min value for this register is 0x01. note: writing into this register when the sensor itself is operating in this rest mode may result in unexpected behavior of the sensor. to avoid this from happening, below commands should be incorporated prior and after the write command into this register. w 22 40 ?-> write 0x40h into register 0x22h prior to writing into this register w 12 xx? -> writing into this register w 22 00? -> write 0x00h into register 0x22h after writing into this register rest3_period address: 0x13 rest3 period register access: read/write reset value: 0x31 bit76543210 field r3p7 r3p6 r3p5 r3p4 r3p3 r3p2 r3p1 r3p0 data type: eight bit number. usage: this register sets the rest3 period. period = (register value r3p [7:0] +1) x 10ms (typical slow clock period). min value for this register is 0x01. max value is 0xfd. note: writing into this register when the sensor itself is operating in this rest mode may result in unexpected behavior of the sensor. to avoid this from happening, below commands should be incorporated prior and after the write command into this register. w 22 40 ?-> write 0x40h into register 0x22h prior to writing into this register w 13 xx? -> writing into this register w 22 00? -> write 0x00h into register 0x22h after writing into this register
28 performance address: 0x22 performance register access: read/write reset value: 0x00 bit7 6543210 field rsvd force3 force1 force0 rsvd rsvd rsvd rsvd bit(s) field name description 7 rsvd reserved 6:4 force[2:0] force modes 0x0: normal operation. 0x1: force mode rest 1. 0x2: force mode rest 2. 0x3: force mode rest 3. 0x4: force mode run 1. 0x5: force mode run 2. 0x6: force mode idle. 3:0 rsvd reserved reset address: 0x3a reset register access: write reset value: 0x00 bit76543210 field rst7 rst6 rst5 rst4 rst3 rst2 rst1 rst0 data type: eight bit unsigned integer. usage: this register is used as chip reset by writing 0x5a into this register. not_rev_id address: 0x3f inverted revision id register access: read reset value: 0x bit76543210 field rrid7 rrid6 rrid5 rrid4 rrid3 rrid2 rrid1 rrid0 data type: eight bit unsigned integer. usage: this register contains the inverse of the revision id which is located at register 0x01.
29 led_ctrl address: 0x40 led control register access: read/write reset value: 0x00 bit7 6543210 field rsvd rsvd rsvd rsvd lcof rsvd rsvd rsvd data type: eight bit unsigned integer. usage: this register is used to control the led operating mode. bit(s) field name description 7:4 rsvd reserved 3lcof 0 : normal operation (default) 1 : led continuous o 2:0 rsvd reserved motion_ctrl address: 0x41 motion control register access: read/write reset value: 0x40 bit7 6543210 field mot_a mot_s rsvd rsvd rsvd rsvd rsvd rsvd data type: eight bit unsigned integer. usage: this register is used to set the feature of motion interrupt output. if mot_s bit is clear, the motion pin is level- sensitive. with active low (mot_a bit is clear) level-sensitive conguration, the motion pin will be driven low when there is motion detected indicating there is motion data in delta_x and delta_y registers. the mouse microcontroller can read motion_st register, delta_x register, and then delta_y register sequentially. after all the motion data has been read, delta_x and delta_y registers will be zero, the motion pin will be driven high by the sensor. if mot_s is set, the motion pin is edge sensitive. if mot_a is also set, it means active high or rising edge triggered. whenever there is motion detected by the sensor, a pulse (~380ns) will be sent out through this pin. this pulse can be used to trigger or wake the controller up from its sleep mode to read motion data from the sensor. the controller can then read motion_st register, delta_x register, and then delta_y register sequentially. (refer to motion function for more information). bit(s) field name description 7 mot_a motion active 0 : low (default) 1 : high 6 mot_s motion sensitivity 0 : level sensitive 1 : edge sensitive (default) 5:0 rsvd reserved
30 burst_read_first address: 0x42 burst read starting address register access: read/write reset value: 0x03 bit7 6543210 field bm7 bm6 bm5 bm4 bm3 bm2 bm1 bm0 data type: eight bit unsigned integer. usage: this register provides the starting register address the sensor will read during burst mode. for more information, refer to burst mode operation. burst_read_last address: 0x44 burst read ending address register access: read/write reset value: 0x09 bit7 6543210 field bm7 bm6 bm5 bm4 bm3 bm2 bm1 bm0 data type: eight bit unsigned integer. usage: this register provides the ending register address the sensor will read during burst mode. for more information, refer to burst mode operation. note: the last address should be larger than the starting address. rest_mode_config address: 0x45 rest mode conguration register access: read/write reset value: 0x00 bit7 6543210 field rm1 rm0 rsvd rsvd rsvd rsvd rsvd rsvd data type: eight bit unsigned integer. usage: this register is used to set the operating mode of the ADNS-2080. bit(s) field name description 7:6 rm[1:0] sensor operating mode 0x00: normal (default) 0x01: rest 1 0x02: rest 2 0x03: rest 3 5:0 rsvd reserved read operation to rest_mode_config indicates which mode the sensor is in. write operation into this register will force the sensor into rest modes (rest 1, 2 or 3). write the value 0x40 into 0x45 register to force sensor into rest 1, 0x80 to rest 2 or 0xc0 to rest 3. to get out of any forced rest mode, write 0x00 into this register to set back to normal mode.
for product information and a complete list of distributors, please go to our web site: www.avagotech.com avago, avago technologies, and the a logo are trademarks of avago technologies in the united states and other countries. data subject to change. copyright ? 2005-2010 avago technologies. all rights reserved. av02-2668en - december 1, 2010 motion_burst address: 0x63 burst read register access: read reset value: 0x00 bit7 6543210 field mb7 mb6 mb5 mb4 mb3 mb2 mb1 mb0 data type: various. usage: this register is used to enable burst mode. burst is initiated by a read of this register, which will then return continuous data starting from the address stored in burst_read first register through burst_read_last register. burst read must read the exact number of addresses set in order to complete the burst operation. for more information refer to burst mode operation section.
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