Power Optical Mouse Sensor Avago Technologies ADNS-5030 power, sm
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ADNS-5030
Power Optical Mouse Sensor
Avago Technologies ADNS-5030 power, small form factor optical mouse sensor. low-power architecture automatic power management modes, making ideal battery, power-sensitive applications such cordless input devices. ADNS-5030 capable high-speed motion detection addition, on-chip oscillator driver minimize external components. ADNS-5030 along with ADNS-5100/ADNS-5100001 lens, ADNS-5200 clip, HLMP-ED80 form complete compact mouse tracking system. There moving parts, which means high reliability less maintenance user. addition, precision optical alignment required, facilitating high volume assembly. sensor programmed registers through fourwire serial port. housed 8-pin staggered dual in-line package (DIP).
Features
power architecture Small form factor Self-adjusting power-saving modes prolonging battery life High speed motion detection Self-adjusting frame rate optimum performance Internal oscillator clock input needed Selectable 1000 resolution Operating voltage: nominal Four wire serial port interface Minimal number passive components
Applications
Optical mice optical trackballs Integrated input devices Battery-powered input devices
Theory Operation
ADNS-5030 based Optical Navigation Technology, which measures changes position optically acquiring sequential surface images (frames) mathematically determining direction magnitude movement. ADNS-5030 contains Image Acquisition System (IAS), Digital Signal Processor (DSP), four wire serial port. acquires microscopic surface images lens illumination system. These images processed determine direction distance motion. calculates relative displacement values. external microcontroller reads information from sensor serial port. microcontroller then translates data into PS2, USB, signals before sending them host
Pinout ADNS-5030 Optical Mouse Sensor
Name MISO
XY_LED NRESET SCLK VDD3 MOSI
Description Serial Data Output (Master In/Slave Out) Control Reset (active input) Chip Select (active input) Serial Clock Input Ground Supply Voltage Serial Data Input (Master Out/Slave
SCLK VDD3 MOSI
A5030 XYYWWZ
NRESET XY_LED MISO
Figure Package outline drawing (top view).
A5030 XYYWWZ
12.85 SHOULDER) (0.506) 9.90 (0.390) 9.10 (0.358)
4.32 (0.170) 5.15 (0.203)
0.50 (0.020) LEAD WIDTH 2.00 (0.079) LEAD PITCH
1.00 (0.039) LEAD OFFSET
0.25 (0.010) 12.85 0.45 LEAD TIP) (0.506 0.018)
5.60 (0.220) BASE)
2.00 (0.079) 5.00 (0.197) PROTECTIVE KAPTON TAPE NOTES: DIMENSIONS MILLIMETERS (INCHES). DIMENSIONAL TOLERANCE: COPLANARITY LEADS: CUMULATIVE PITCH TOLERANCE: 0.15 LEAD PITCH TOLERANCE: 0.15 MAXIMUM FLASH: LEAD WIDTH: ANGULAR TOLERANCE:
4.55 (0.179) 0.80 (0.031) CLEAR OPTICAL PATH
4.45 (0.175)
Figure Package outline drawing.
CAUTION: advised that normal static precautions taken handling assembly this component prevent damage and/or degradation which induced ESD.
Overview Optical Mouse Sensor Assembly
Avago Technologies provides IGES file drawing describing base plate molding features lens alignment. ADNS-5030 sensor designed mounting through-hole PCB, looking down. There aperture stop features package that align lens. ADNS-5100/5100-001 lens provides optics imaging surface well illumination surface optimum angle. Features lens align sensor, base plate, clip with LED. ADNS-5200 clip holds relation lens. must inserted into clip LED's leads formed prior loading PCB. HLMP-ED80 recommended illumination.
Figure Recommended mechanical cutouts spacing.
VIEW
33.45 (1.317)
13.10 (0.516)
BASE PLATE
CROSS SECTION SIDE VIEW
CLIP 10.58 (0.417) 7.45 SURFACE (0.293) SENSOR LENS
2.40 BOTTOM LENS FLANGE SURFACE (0.094) DIMENSIONS (INCHES)
NAVIGATION SURFACE
BASE PLATE
ALIGNMENT POST (OPTIONAL)
Figure Assembly drawing ADNS-5030 (top side view).
HLMP-ED80 (LED) ADNS-5200 (LED CLIP) SENSOR
CUSTOMER SUPPLIED
ADNS-5100 (LENS)
CUSTOMER SUPPLIED BASE PLATE WITH RECOMMENDED ALIGNMENT FEATURES IGES DRAWING
Figure Exploded view drawing.
Assembly Considerations
Insert sensor other electrical components into PCB. Insert into assembly clip bend leads degrees. Insert clip assembly into PCB. Wave solder entire assembly no-wash solder process utilizing solder fixture. solder fixture needed protect sensor during solder process. also sets correct sensor-to-PCB distance lead shoulders normally rest surface. fixture should designed expose sensor leads solder while shielding optical aperture from direct solder contact. Place lens onto base plate. Remove protective kapton tape from optical aperture sensor. Care must taken keep contaminants from entering aperture. Recommend place facing during entire mouse assembly process. Recommend hold first vertically kapton removal process. Insert assembly over lens onto base plate aligning post retain assembly. sensor aperture ring should self-align lens. optical position reference base plate lens. Note that motion button presses must minimized maintain optical alignment. Install mouse case. There MUST feature case press down onto assembly ensure components interlocked correct vertical height.
ADNS-5030
SERIAL PORT REGISTERS
SCLK MOSI MISO NRESET
VDD3
POWER CONTROL
IMAGE ARRAY OSCILLATOR
XY_LED
DRIVE
Figure Block diagram ADNS-5030 optical mouse sensor.
Design Considerations Improved Performance
improved electrostatic discharge performance, typical creepage clearance distance shown table below. Assumption: base plate construction Avago Technologies supplied IGES file ADNS5100/5100-001 lens. Typical Distance Millimeters Creepage 16.0 Clearance Note that lens material polycarbonate and, therefore, cyanoacrylate based adhesives other adhesives that damage lens should used.
CLIP SENSOR
LENS/LIGHT PIPE BASE PLATE
SURFACE
Figure Sectional view assembly highlighting optical mouse components.
Recommended Typical Application (Transmitter Side)
0.33 CFIL 0.33 0.33 RECOMMENDED BIN: ABOVE VOUT
Recommended Typical Application (Receiver Side)
LM3352
INTERNAL IMAGE SENSOR P3.3 RECEIVER CIRCUITRY TRANSMITTER CIRCUITRY P3.4 P3.5 P3.0 P3.1 P1.5 P1.6 P1.7 P1.0 P1.1 SHLD XTALOUT XTALIN (OPTIONAL) XTAL2 XTAL1 P3.2 P1.4 P1.2 P1.3 BUTTONS MISO SCLK NRESET MOSI XY_LED
ADNS-5100 LENS HLMP ED80 SURFACE
P0.5 P0.6
Vreg
SHLD
ADNS-5030 3.0-VOLT MICROCONTROLLER
Figure Schematic diagram interface between ADNS-5030 microcontroller (cordless application).
with Features
P0.7
Regulatory Requirements
Passes worldwide analogous emission limits when assembled into mouse with shielded cable following Avago Technologies recommendations. Passes IEC-1000-4-3 radiated susceptibility level when assembled into mouse with shielded cable following Avago Technologies recommendations. Passes EN61000-4-4/IEC801-4 tests when assembled into mouse with shielded cable following Avago Technologies recommendations. flammability level UL94 V-0. Provides sufficient creepage/clearance distance avoid discharge when assembled into mouse using ADNS-5100 round lens according usage instructions above.
Absolute Maximum Ratings
Parameter Symbol Storage Temperature Lead Solder Temperature Supply Voltage Input Voltage Output Current Iout Minimum Maximum -0.5 -0.5 Units Notes
pins, human body model Method 3015 pins MISO
Recommended Operating Conditions
Parameter Operating Temperature Power Supply Power Supply Rise Time Supply Noise (Sinusoidal) Serial Port Clock Frequency Distance from Lens Reference Plane Tracking Surface Speed Acceleration Load Capacitance Symbol fSCLK Cout Minimum Typical 0.005 Maximum Units mVp-p Notes duty cycle
MISO
LENS SENSOR
2.40 (0.094)
OBJECT SURFACE
LENS REFERENCE PLANE
Figure Distance from lens reference plane tracking surface (Z).
Electrical Specifications Electrical Characteristics over recommended operating conditions. Typical values Parameter Symbol MinimumTypical MaximumUnits Notes
Reset Pulse Width Motion Delay after Reset Forced Rest Enable Wake from Forced Rest Power Down Wake from Power Down MISO Rise Time MISO Fall Time MISO Delay after SCLK MISO Hold Time MOSI Hold Time MOSI Setup Time Time between Write Commands Time between Write Read Commands Time between Read Subsequent Commands Read Address-Data Delay Inactive after Motion Burst SCLK Active SCLK Inactive (for Read Operation) SCLK Inactive (for Write Operation) MISO high-Z Transient Supply Current tRESET tMOT-RST tREST-EN tREST-DIS tWAKEUP tr-MISO tf-MISO tDLY-MISO thold-MISO thold-MOSI tsetup-MOSI tSWW tSWR tSRW tSRR tSRAD tBEXIT tNCS-SCLK tSCLK-NCS tSCLK-NCS tNCS-MISO IDDT 1/fSCLK Active From NRESET pull high valid motion, assuming motion present From Rest Mode(RM) bits target rest mode From Rest Mode(RM) bits cleared valid motion From (when register 0x0d set) current From inactive (when NRESET asserted high write 0x5a register 0x3a) valid motion From SCLK falling edge MISO data valid, load conditions Data held until next falling SCLK edge Amount time data valid after SCLK rising edge From data valid SCLK rising edge From rising SCLK last first data byte, rising SCLK last second data byte From rising SCLK last first data byte, rising SCLK last second address byte From rising SCLK last first data byte, falling SCLK first next address From rising SCLK last address byte, falling SCLK first data being read Minimum inactive time after motion burst before next usage From falling edge first SCLK rising edge From last SCLK rising edge rising edge, valid MISO data transfer From last SCLK rising edge rising edge, valid MOSI data transfer From rising edge MISO high-Z state supply current during ramp from
Electrical Specifications Electrical Characteristics over recommended operating conditions. Typical values 25°C, Parameter
Supply Current Various Mode
Symbol
IDD_AVG_HIGH IDD_AVG_LOW IDD_REST1 IDD_REST2 IDD_REST3
Minimum Typical
15.2
Maximum Units Notes
Average current, including current, frame rate. load MISO. register 0x40 Average current, including current, frame rate. load MISO. register 0x40
11.3
13.1
Power Down Input Voltage Input High Voltage Input hysteresis Input leakage current Output Voltage Output High Voltage Input Capacitance
0.34 0.09 0.03
0.54 0.16 0.06
VI_HYS Ileak
SCLK, MOSI, NCS, NRESET SCLK, MOSI, NCS, NRESET SCLK, MOSI, NCS, NRESET Vin=VDD-0.6V, SCLK, MOSI, NCS, NRESET Iout=1mA, MISO Iout=-1mA, MISO MOSI, NCS, SCLK, NRESET
-0.7
Typical Performance Characteristics (Bit register 0x40 "0")
1200 1000 Mean Resolution (CPI) White paper Manila White Melamine bookshelf Black Formica
Distance from Lens Reference Plane Tracking Surface
Figure Mean resolution distance from lens reference plane surface.
Maximun Distance (mouse count) Distance from Lens Reference Plane Tracking Surface
White paper Manila White Melamine bookshelf Black Formica
Normalized Response
1000
Wavelength (nm)
Figure Typical path deviation.
Figure Relative wavelength responsivity.
Power Management Modes
ADNS-5030 three power-saving modes. Each mode different motion detection period, affecting response time mouse motion (Response Time). sensor automatically changes appropriate mode, depending time since last reported motion (Downshift Time). parameters each mode shown following table. Mode Rest Rest Rest ResponseTime (Typical) DownshiftTime (Typical) lines that comprise port: SCLK: Clock input. always generated master (the micro-controller). MOSI: Input data. (Master Out/Slave MISO: Output data. (Master In/Slave Out) NCS: Chip select input (active low). needs activate serial port; otherwise, MISO will high MOSI SCLK will ignored. also used reset serial port case error.
Chip Select Operation
serial port activated after goes low. raised during transaction, entire transaction aborted serial port will reset. This true transactions. After transaction aborted, normal address-to-data transaction-to-transaction delay still required before beginning next transaction. improve communication reliability, serial transactions should framed NCS. other words, port should remain enabled during periods non-use because EFT/B events could interpreted serial communication chip into unknown state. addition, must raised after each burstmode transaction complete terminate burst-mode. port available further until burst-mode terminated.
Mode
power savings, will continuously ADNS-5030 will pulse only when needed.
Synchronous Serial Port
synchronous serial port used read parameters ADNS-5030, read motion information. port four wire serial port. host micro-controller always initiates communication; ADNS-5030 never initiates data transfers. SCLK, MOSI, driven directly micro-controller. port pins shared with other slave devices. When high, inputs ignored output tri-stated.
Write Operation
Write operation, defined data going from microcontroller ADNS-5030, always initiated micro-controller consists bytes. first byte contains address (seven bits) indicate data direction. second byte contains data. ADNS-5030 reads MOSI rising edges SCLK.
SCLK MOSI
MISO
MOSI DRIVEN MICRO-CONTROLLER
Write Operation
SCLK
MOSI thold, MOSI tsetup, MOSI
MOSI Setup Hold Time Read Operation
read operation, defined data going from ADNS5030 micro-controller, always initiated micro-controller consists bytes. first byte contains address, sent micro-controller over MOSI, indicate data direction. second byte contains data driven ADNS-5030 over MISO. sensor outputs MISO bits falling edges SCLK samples MOSI bits every rising edge SCLK.
SCLK CYCLE SCLK MOSI
MISO
tSRAD DELAY
Read Operation
SCLK tDLY-MISO MISO tHOLD-MISO
MISO Delay Hold Time
NOTE: minimum high state SCLK also minimum MISO data hold time ADNS-5030. Since falling edge SCLK actually start next read write command, ADNS-5030 will hold state data MISO until falling edge SCLK.
Required Timing between Read Write Commands
There minimum timing requirements between read write commands serial port.
tSWW
SCLK ADDRESS DATA ADDRESS DATA
WRITE OPERATION
WRITE OPERATION
Timing between Write Commands
rising edge SCLK last data second write command occurs before required delay (tSWW then first write command complete correctly.
tSWR
SCLK ADDRESS DATA ADDRESS
WRITE OPERATION
NEXT READ OPERATION
Timing between Write Read Commands
rising edge SCLK last address read command occurs before required delay (tSWR), write command complete correctly.
tSRAD tSRW tSRR
SCLK ADDRESS READ OPERATION DATA ADDRESS
NEXT READ WRITE OPERATION
Timing between Read Either Write Subsequent Read Commands
During read operation SCLK should delayed least tSRAD after last address data ensure that ADNS-5030 time prepare requested data. falling edge SCLK first address either read write command must least tSRR tSRW after last SCLK rising edge last data previous read operation.
Motion Burst Timing
tSRAD
SCLK MOTION_BURST REGISTER ADDRESS READ FIRST BYTE
FIRST READ OPERATION
READ SECOND BYTE
READ THIRD BYTE
Burst Mode Operation
Burst mode special serial port operation mode that used reduce serial transaction time motion read. speed improvement achieved continuous data clocking from multiple registers without need specify register address, requiring normal delay period between data bytes. Burst mode activated reading Motion_Burst register. ADNS-5030 will respond with contents Delta_X, Delta_Y, SQUAL, Shutter_Upper, Shutter_ Lower, Maximum_Pixel Pixel_Sum registers that order. burst transaction terminated anywhere sequence after Delta_X value bringing high. After sending register address, micro-controller must wait tSRAD then begin reading data. data bits read with delay between bytes driving SCLK normal rate. data latched into output buffer after last address received. After burst transmission complete, micro-controller must raise line least tBEXIT terminate burst mode. serial port available until reset with NCS, even second burst transmission. Avago Technologies highly recommends usage burst mode operation optical mouse sensor design applications.
Notes Power-up Reset
ADNS-5030 does perform internal power self-reset; NRESET must asserted every time power applied. There ways reset chip, either assert NRESET writing 0x5a register 0x3a. full reset will thus executed. register settings must then reloaded. During power-up there will period time after power supply high before clocks available. table below shows state various pins during power-up reset. State Signal Pins after Valid During Reset After Reset Ignored Functional MISO Depends SCLK MOSI XY_LED Ignored Ignored High Depends Depends Functional
Notes Power Down
ADNS-5030 Power Down mode setting Register 0x0d. addition, port should accessed during power down. (Other same accessed, long sensor's asserted.) table below shows state various pins during power down. There ways exit power down, either assert NRESET writing 0x5a Register 0x3a. full reset will thus executed. Wait tWAKEUP before accessing port. register settings must then reloaded. NRESET MISO SCLK MOSI XY_LED Power Down Active Functional Functional* Undefined Functional* Functional* current
must held (high) shared with other devices. either state sensor only device addition controller microprocessor. Note: There long wakeup time from power down. This feature should used power management during normal mouse motion.
Registers
ADNS-5030 registers accessible serial port. registers used read motion data status well device configuration. Address 0x00 0x01 0x02 0x03 0x04 0x05 0x06 0x07 0x08 0x09 0x0a 0x0b 0x0c 0x0d 0x0e 0x39 0x3a 0x3b 0x3e 0x3f 0x40 0x41 0x44 0x45 0x46 0x62 0x63 Register Product_ID Revision_ID Motion Delta_X Delta_Y SQUAL Shutter_Upper Shutter_Lower Maximum_Pixel Pixel_Sum Minimum_Pixel Pixel_Grab Reserved Mouse Control Reserved Chip_Reset Reserved Inv_Rev_ID Sensor_Current_Setting Reserved Rest_mode_configuration Reserved Motion_Burst Read/Write DefaultValue 0x11 0x00 0x00 0x00 0xff 0x00 0x00
Product_ID Access: Read Field Data Type: USAGE:
Address: 0x00 Reset Value: 0x11 PID7 PID6 PID5 PID4 PID3 PID2 PID1 PID0
8-Bit unsigned integer This register contains unique identification assigned ADNS-5030. value this register does change; used verify that serial communications link functional.
Revision_ID Access: Read Field Data Type: USAGE:
Address: 0x01 Reset Value: 0x00 RID7 RID6 RID5 RID4 RID3 RID2 RID1 RID0
8-Bit unsigned integer This register contains revision. subject change when versions released.
Motion Access: Read/Write Field Data Type: USAGE:
Address: 0x02 Reset Value: 0x00 Reserved Reserved Reserved Reserved Reserved Reserved Reserved
field Register 0x02 allows user determine motion occurred since last time read. set, then user should read registers 0x03 0x04 accumulated motion. Read this register before reading Delta_X Delta_Y registers. Writing anything this register clears bit, Delta_X Delta_Y registers. written data byte saved. Field Name Reserved Description Motion since last report 0=Nomotion Motion occurred, data ready reading Delta_X Delta_Y registers Reserved
Delta Access: Read Field Data Type: USAGE:
Address: 0x03 Reset Value: 0x00
Eight complement number movement counts since last report. Absolute value determined resolution. Reading clears register.
MOTION -128 -127 +126 +127
DELTA_X
NOTE: Avago Technologies RECOMMENDS that registers 0x03 0x04 read sequentially.
Delta_Y Access: Read Field Data Type: USAGE:
Address: 0x04 Reset Value: 0x00
Eight complement number movement counts since last report. Absolute value determined resolution. Reading clears register.
MOTION -128 -127 +126 +127
DELTA_Y
NOTE: Avago Technologies RECOMMENDS that registers 0x03 0x04 read sequentially.
Squal Access: Read Field Data Type: USAGE:
Address: 0x05 Reset Value: 0x00
Upper bits 9-bit unsigned integer SQUAL (Surface Quality) measure number valid features visible sensor current frame. maximum SQUAL register value 144. Since small changes current frame result changes SQUAL, variations SQUAL when looking surface expected. graph below shows sequentially acquired SQUAL values, while sensor moved slowly over white paper. SQUAL nearly equal zero, there surface below sensor. SQUAL typically maximized when navigation surface optimum distance from imaging lens (the nominal Zheight).
Squal (White paper) Squal value Count
Figure Squal values (white paper).
Mean Squal (White paper) Avg-3sigma Avg+3sigma
Squal value (Count)
Delta from Nominal Focus (mm)
Figure Mean squal (white paper).
Shutter_Upper Access: Read Field
Address: 0x06 Reset Value: 0x00
Shutter_Lower Access: Read Field Data Type: USAGE:
Address: 0x07 Reset Value: 0x00
Sixteen unsigned integer Units clock cycles. Read Shutter_Upper first, then Shutter_Lower. They should read consecutively. shutter adjusted keep average maximum pixel values within normal operating ranges. shutter value automatically adjusted.
Shutter (White Paper)
Shutter Value
Count
Figure Shutter (white paper).
Mean Shutter value (Count) Distance from Lens Reference Plane Tracking Surface
Avg-3sigma Avg+3sigma
Figure Mean shutter (white paper).
Maximum_Pixel Access: Read Field Data Type: USAGE:
Address: 0x08 Reset Value: 0x00
Eight-bit number Maximum Pixel value current frame. Minimum value maximum value 127. maximum pixel value vary with every frame.
Pixel_Sum Access: Read Field Data Type: USAGE:
Address: 0x09 Reset Value: 0x00
High bits unsigned 15-bit integer This register accumulated pixel value from last image taken. maximum accumulator value 28,575, only bits [14:7] reported. described full divided 1.76. maximum register value 223. minimum pixel value change every frame.
Minimum_Pixel Access: Read Field Data Type: USAGE:
Address: 0x0a Reset Value: 0x00
Eight-bit number Minimum Pixel value current frame. Minimum value maximum value 127. minimum pixel value vary with every frame.
Pixel_Grab Access: Read/Write Field
Address: 0x0b Reset Value: 0x00 Valid
Data Type: USAGE:
Eight-bit word pixel grabber captures pixel frame. there valid pixel grabber when this register read, will set, internal counter will incremented capture next pixel grabber will armed capture next pixel. will take reads upload complete image. write this register will reset grabber grab pixel next image.
Physical Pixel Address readout order array
(looking through sensor aperture bottom package)
TopX-rayviewofmouse PositiveY PositiveX
Last Pixel First Pixel
Bottomviewofmouse
PositiveX
Holeatmouse bottomcover forlens
PositiveY
Reserved Mouse_control Access: Read/Write Field
Address: 0x0c Address: 0x0d Reset Value: 0x00 Reserved Reserved Reserved Reserved Reserved Reserved
Data Type: USAGE:
Eight number Mouse sensor resolution power down settings accessed edited this register. Field Name Reserved Description Power Down 0=normal Power Down Resolution 0=500cpi 1000 Reserved
Reserved Chip_Reset Access: Write Field Data Type: USAGE:
Address: 0x0e-0x39 Address: 0x3a Reset Value: 0x00
8-Bit unsigned integer Write 0x5a initiate chip RESET.
Reserved
Address: 0x3b-0x3e
Inv_Rev_ID Access: Read Field Data Type: USAGE:
Address: 0x3f Reset Value: 0xff RRID7 RRID6 RRID5 RRID4 RRID3 RRID2 RRID1 RRID0
Inverse 8-Bit unsigned integer This register contains inverse revision which located register 0x01.
Sensor_Current_Setting Access: Write Field Data Type: USAGE:
Address: 0x40 Reset Value: Reserved Reserved Reserved Reserved Reserved Reserved Reserved
8-bit number This register used internal driver's drive strength. Field Name Reserved Description Internal Driver Current 0=Highcurrent current Reserved
Reserved Rest_mode_configuration Access: Read/Write Field Data Type: USAGE: field
Address: 0x41-0x44 Address: 0x45 Reset Value: 0x00 Reserved Reserved Reserved Reserved Reserved Reserved
Register 0x45 allows user change monitor rest mode configuration sensor. Write operations forces sensor into rest mode. Read sensor report which mode Note: Forced Rest long wakeup time should used power management during normal mouse motion. Field Name RM[1-0] Description Write operation: Force rest mode selection 00=Normaloperation Rest1 Rest2 Rest3 Read operation: Reports which mode sensor 00=Run Rest1 Rest2 Rest3 Reserved
RM[1-0]
Reserved
Reserved
Address: 0x46-0x62
Motion_Burst Access: Read Field Data Type: USAGE:
Address: 0x63 Reset Value: 0x00
Various Read from this register activate burst mode. sensor will return data Delta_X, Delta_Y, Squal, Shutter_Upper, Shutter_Lower, Maximum_Pixel Pixel_Sum. burst terminated this point, internal address counter stops incrementing Pixel register's value will continuously returned. Bursts terminated when raised.
product information complete list distributors, website:
www.avagotech.com
Avago, Avago Technologies, logo trademarks Avago Technologies Limited United States other countries. Data subject change. Copyright 2007 Avago Technologies Limited. rights reserved. Obsoletes AV01-0096EN AV02-0113EN February 2007
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