adns-6030 Avago Technologies, adns-6030 Datasheet

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adns-6030

Manufacturer Part Number
adns-6030
Description
Low Power Laser Mouse Bundles - Agilent Hewlett-packard
Manufacturer
Avago Technologies
Datasheet

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Part Number:
ADNS-6030
Manufacturer:
Agilent
Quantity:
5 000
Description
The Agilent ADNB-6031 and
ADNB-6032 low power laser
mouse bundles are the world’s
first laser-illuminated system
enabled for cordless
application. Powered by
Agilent LaserStream
technology, the mouse can
operate on many surfaces that
proved difficult for traditional
LED-based optical navigation.
Its high-performance, low
power architecture is capable
of sensing high-speed mouse
ADNB-6031 and ADNB-6032 Low Power Laser Mouse Bundles include:
Bundle Part Number
Bundle Part Number
ADNB-6031
ADNB-6032
Part Number
Part Number
ADNS-6030
ADNV-6330
ADNS-6120
ADNS-6230-001
ADNS-6030
ADNV-6330
ADNS-6130-001
ADNS-6230-001
Agilent ADNB-6031 and ADNB-6032
Low Power Laser Mouse Bundles
Datasheet
motion while prolonging
battery life, two performance
areas essential in demanding
cordless applications.
The ADNS-6030 sensor along
with the ADNS-6120 or ADNS-
6130-001 lens, ADNS-6230-001
clip and ADNV-6330 VCSEL
form a complete and compact
laser mouse tracking system.
There are no moving part,
which means high reliability
and less maintenance for the
Laser Mouse Round Lens
Laser Mouse VCSEL Assembly Clip
Laser Mouse Trim Lens
Laser Mouse VCSEL Assembly Clip
Description
Low Power Laser Mouse Sensor
Single-Mode Vertical-Cavity Surface Emitting Laser (VCSEL)
Description
Low Power Laser Mouse Sensor
Single-Mode Vertical-Cavity Surface Emitting Laser (VCSEL)
end user. In addition,
precision optical alignment is
not required, facilitating high
volume assembly.
This document will begin with
some general information and
usage guidelines on the bundle
set, followed by individual
detailed information on ADNS-
6030 laser mouse sensor,
ADNV-6330 VCSEL, ADNS-
6120 or ADNS-6130-001 lens
and ADNS-6230-001 clip.

Related parts for adns-6030

adns-6030 Summary of contents

Page 1

... Low Power Laser Mouse Bundles Datasheet motion while prolonging battery life, two performance areas essential in demanding cordless applications. The ADNS-6030 sensor along with the ADNS-6120 or ADNS- 6130-001 lens, ADNS-6230-001 clip and ADNV-6330 VCSEL form a complete and compact laser mouse tracking system. ...

Page 2

Overview of Laser Mouse Sensor Assembly Figure 1. 2D Assembly drawing of ADNB-6032 (top and cross-sectional view) 2 ...

Page 3

... VCSEL Assembly Clip and ADNV-6330 VCSEL. The components interlock as they are mounted onto defined features on the base plate. The ADNS-6030 laser mouse 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 ...

Page 4

Figure 3. Recommended PCB mechanical cutouts and spacing Assembly Recommendation 1. Insert the sensor and all other electrical components into the application PCB (main PCB board and VCSEL PCB board). 2. Wave-solder the entire assembly in a no-wash solder process ...

Page 5

... Figure 5a. Schematic Diagram for 3-Button Scroll Wheel Corded Mouse Notes 1. The supply and ground paths should be laid out using a star methodology. 2. Level shifting is required to interface a 5V micro-controller to the ADNS-6030 micro-controller is used, the 74VHC125 component shown may be omitted. 5 Figure 4. Sectional view of PCB assembly highlighting optical mouse components ...

Page 6

... MAX1722 6 ADNS-6030 MC68HC908QY4 MC68HC908JB12 ...

Page 7

... The laser is driven in pulsed mode during normal operation. A calibration mode is provided which drives the laser in continuous (CW) operation. Eye Safety The ADNS-6030 and the associated components in the schematic of Figure 5 are intended to comply with Class 1 Eye Safety Requirements of IEC 60825-1. Agilent Technologies suggests that ...

Page 8

... LASER_NEN goes high to turn the transistor off and disconnect V from the DD LASER. Single Fault Detection ADNS-6030 is able to detect a short circuit or fault condition at the XY_LASER pin, which could lead to excessive laser power output. A path to ground on this pin will trigger the fault detection circuit, ...

Page 9

... Processor (DSP), and a four 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 Pinout of ADNS-6030 Optical Mouse Sensor Pin Name Description 1 NCS Chip select (active low input) ...

Page 10

Figure 8. Package outline drawing CAUTION advised that normal static precautions be taken in handling and assembly of this component to prevent damage and/or degradation which may be induced by ESD 10 ...

Page 11

... ADNS-6030 VDD AVDD Image Array GND DSP AGND Oscillator LASER Drive XY_LASER Figure 9. Block Diagram of ADNS-6030 optical module sensor Absolute Maximum Ratings Parameter Symbol Storage Temperature T S Lead Solder Temp Supply Voltage V DD ESD Input Voltage V IN Latchup Current Iout 11 NCS ...

Page 12

Recommended Operating Conditions Parameter Symbol Operating Temperature T A Power supply voltage V DD Power supply rise time V RT Supply noise(Sinusoidal Serial Port Clock f SCLK Frequency Distance from lens Z reference plane to surface Speed S ...

Page 13

AC Electrical Specifications Electrical Characteristics over recommended operating conditions. Typical values at 25 °C, V Parameter Symbol Minimum Motion delay after t MOT-RST reset Shutdown t STDWN Wake from t 23 WAKEUP shutdown Forced Rest enable t REST-EN Wake from ...

Page 14

DC Electrical Specifications Electrical Characteristics over recommended operating conditions. Typical values at 25 °C, V Parameter Symbol DC Supply Current in I DD_RUN various modes I DD_REST1 I DD_REST2 I DD_REST3 Peak Supply Current Shutdown Supply Current I DDSTDWN Input ...

Page 15

... Largest Single Perpendicular Deviation From A Straight Line At 45 Degrees Path Length = 4 inches; Speed = 6 ips ; Resolution = 800 cpi 1.5 1.6 1.7 1.8 1.9 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 Distance From Lens Reference Plane To Surface, Z (mm) Figure 12. Average Error vs. Distance at 800cpi (mm) Relative Responsivity for ADNS-6030 1 0.9 0.8 0.7 0.6 0.5 0.4 0.3 0.2 0.1 0 400 500 600 Wavelength (nm) Figure 13 ...

Page 16

... The port is a four-wire port. The host micro-controller always initiates communication; the ADNS-6030 never initiates data transfers. SCLK, MOSI, and NCS may be driven directly by a micro-controller. The port pins may be shared with other SPI slave devices. ...

Page 17

... SRAD delay Note: The 0.5/fSCLK minimums high state of SCLK is also the minimum MISO data hold time of the ADNS-6030. Since the falling edge of SCLK is actually the start of the next read or write command, the ADNS- 6030 will hold the state of data on MISO until the falling edge of SCLK ...

Page 18

... Burst mode is activated by reading the Motion_Burst register. The ADNS-6030 will respond with the contents of the Motion, Delta_X, Delta_Y, t SWW Address Write Operation Data ...

Page 19

... This is to allow for further power savings in applications where the sensor does not need to operate all the time. The ADNS-6030 can be set in Shutdown mode by writing 0xe7 to register 0x3b. The SPI port should not be accessed when Shutdown mode is asserted, except the power-up command (writing 0x5a to register 0x3a) ...

Page 20

... Registers The ADNS-6030 registers are accessible via the serial port. The registers are used to read motion data and status as well as to set the device configuration. Address Register 0x00 Product_ID 0x01 Revision_ID 0x02 Motion 0x03 Delta_X 0x04 Delta_Y 0x05 SQUAL 0x06 Shutter_Upper ...

Page 21

... Field PID PID 7 6 Data Type : 8-Bit unsigned integer USAGE : This register contains a unique identification assigned to the ADNS-6030. The value in this register does not change; it can be used to verify that the serial communications link is functional. Revision_ID Access: Read Bit 7 6 Field ...

Page 22

Motion Access: Read/Write Bit 7 6 Field MOT PIXRDY Data Type : Bit field. USAGE : Register 0x02 allows the user to determine if motion has occurred since the last time it was read. If the MOT bit is set, ...

Page 23

Delta_X Access: Read Bit 7 6 Field Data Type : Eight bit 2’s complement number. USAGE : X movement is counts since last report. Absolute value is determined by resolution. Reading clears the register. -128 -127 ...

Page 24

SQUAL Access: Read Bit 7 6 Field Data Type : Upper 8 bits of a 9-bit unsigned integer. USAGE : SQUAL (Surface Quality measure of the number of valid features visible by the sensor ...

Page 25

Shutter_Upper Access: Read Bit 7 6 Field Shutter_Lower Access: Read Bit 7 6 Field Data Type : Sixteen bit unsigned integer. USAGE : Units are clock cycles. Read Shutter_Upper first, then Shutter_Lower. ...

Page 26

Maximum_Pixel Access: Read Bit 7 6 Field Data Type : Eight-bit number. USAGE : Maximum Pixel value in current frame. Minimum value = 0, maximum value = 254. The maximum pixel value can vary with every ...

Page 27

... Figure 26. Pixel Address Map (Looking through the ADNS-6130-001 or ADNS-6120 Lens) 27 ...

Page 28

CRC0 Access: Read Bit 7 6 Field CRC0 CRC0 7 6 Data Type : Eight-bit number USAGE : Register 0x0c reports the first byte of the system self test results. Value = 05. CRC1 Access: Read Bit 7 6 Field ...

Page 29

Self_Test Access: Write Bit 7 6 Field Reserved Reserved Data Type : Bit field USAGE : Set the TESTEN bit in register 0x10 to start the system self-test. The test takes 250ms. During this time, do not write or read ...

Page 30

LASER_CTRL0 Access: Read/Write Bit 7 6 Field Range Reserved Data Type : Bit field USAGE : This register is used to control the laser drive. Bits 5 and 7 require complement values in register 0x1F. If the registers do not ...

Page 31

LSRPWR_CFG0 Access: Read and Write Bit 7 6 Field Data Type : 8 Bit unsigned USAGE : This register is used to set the laser current used together with register 0x1D, where ...

Page 32

LASER_CTRL1 Access: Read and Write Bit 7 6 Field Range_C Reserved Data Type : 8 Bit unsigned USAGE : Bits 5 and 7 of this register must be the complement of the corresponding bits in register 0x1A for the VCSEL ...

Page 33

POWER_UP_RESET Access: Write Bit 7 6 Field RST RST 7 6 Data Type : 8-bit integer USAGE : Write 0x5a to this register to reset the chip. All settings will revert to default values. Reset is required after recovering from ...

Page 34

Motion_Burst Access: Read Bit 7 6 Field Data Type : Various. USAGE : Read from this register to activate burst mode. The sensor will return the data in the Motion register, Delta_X, Delta_Y, Squal, Shutter_Upper, Shutter_Lower, ...

Page 35

... Single Mode Lasing operation · Non-hermetic plastic package · 832-865 nm wavelength Notes: Because the can is not sealed, the protective kapton tape should not be removed until just prior to assembly into the ADNS-6120 or ADNS-6130-001 lens. 35 Figure 27. Outline Drawing for ADNV-6330 VCSEL (11) 5.0 1.7 For cable or wire ...

Page 36

... I = 10µA 3. See IR reflow profile (Figure 36) Comments: VCSELs are sorted into bins as specified in the power adjustment procedure section in the ADNS-6030 laser sensor datasheet. Appropriate binning resistor and register data values are used in the application circuit to achieve the target output power. Symbol Min ...

Page 37

Typical Characteristics Forward Voltage vs. Forward Currents 2.5 2.0 1.5 1.0 0.5 0 Forward Current (mA) Figure 29. Forward Voltage vs. Forward Current 4.5 4.0 3.5 3.0 2.5 2.0 1.5 1.0 0 Forward ...

Page 38

Figure 32. Recommended Reflow Soldering Profile 255 ˚C 250 ˚C 217 ˚ 150 sec 125 ˚C 40 ˚C ...

Page 39

... VCSEL assembly clip and the ADNV-6330 Single-Mode Vertical-Cavity Surface Emitting Lasers (VCSEL). Together with the VCSEL, the Figure 33. ADNS-6120 laser mouse round lens outline drawings and details 39 ADNS-6120 or ADNS-6130-001 laser mouse lens provides the directed illumination and optical imaging necessary for proper operation of the laser mouse sensor ...

Page 40

... Figure 34. ADNS-6130-001 laser mouse trim lens outline drawings and details 40 ...

Page 41

... Distance from Object Surface to A Lens Reference Plane Distance from Mouse Sensor B Lid Surface to Object Surface Figure 36. Agilent’s logo locations 41 B Min. Typical Max. Units 2.18 2.40 2.62 mm 10.65 mm Conditions For ADNS-6120 and ADNS- 6130-001 Sensor lid must be in contact with lens housing surface ...

Page 42

... An IGES format drawing file with design specifications for laser mouse base plate features is available. These features are useful in maintaining proper positioning and alignment of the ADNS- 6120 or ADNS-6130-001 laser mouse lens when used with the Agilent Laser Mouse Sensor. This file can be obtained by contacting your local Agilent sales representative. ...

Page 43

... Figure 38. Illustration of base plate mounting features for ADNS-6130-001 laser mouse trim lens 43 ...

Page 44

... The ADNS-6230-001 VCSEL Assembly Clip is designed to provide mechanical coupling of the ADNV-6330 VCSEL to the ADNS-6120 or ADNS-6130-001 Laser Mouse Lens. This Figure 39. Outline Drawing for ADNS-6230-001 VCSEL Assembly Clip coupling is essential to achieve the proper illumination alignment required for the sensor to operate on a wide variety of surfaces. ...

Page 45

For product information and a complete list of distributors, please go to our web site. For technical assistance call: Americas/Canada: +1 (800) 235-0312 or (916) 788-6763 Europe: +49 (0) 6441 92460 China: 10800 650 0017 Hong Kong: (+65) ...

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