ADNS-9500 Avago Technologies US Inc., ADNS-9500 Datasheet - Page 9

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ADNS-9500

Manufacturer Part Number
ADNS-9500
Description
Ultimate Gaming Laser Sensor
Manufacturer
Avago Technologies US Inc.
Datasheet

Specifications of ADNS-9500

Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Lead Free Status / RoHS Status
Lead free / RoHS Compliant

Available stocks

Company
Part Number
Manufacturer
Quantity
Price
Part Number:
ADNS-9500
Manufacturer:
Richwave
Quantity:
1 200
Microcontroller
LASER Output Power (LOP)
The LOP can be measured for testing purpose as per steps
below.
1. Power up reset the mouse system.
2. Enable the laser by setting Forced_Disabled bit of
3. Enable the Calibration mode by writing 010b to bits
4. Measure the LOP at the navigation surface plane.
The pre-calibrated LOP value at typical operating supply
voltage and temperature of 25 ± 5°C should not exceeding
506μW, otherwise the LOPmax limit in the Absolute
Maximum Rating is applicable. The following conditions
apply:
x The system is operated within the recommended
x In 3V mode, the VDD3 value is no greater than 300mV
x No allowance for optical power meter accuracy is
Figure 8. Single Fault Detection and Eye-safety Feature Block Diagram
9
Serial port
LASER_CTRL0 register (address 0x20) to 0.
[3,2,1] of LASER_CTRL0 register (address 0x20) to set
the laser to continuous (CW) mode.
operating supply voltage and temperature range.
above the pre-calibration voltage of 3.0V. In 5V mode,
REFB should be used to drive the PMOSFET connecting
to VCSEL.
assumed.
voltage sense
LASER DRIVER
fault control
current set
block
ADNS-9500
Single Fault Detection
ADNS-9500 sensor is able to detect a short circuit or fault
condition at –VCSEL pin, which could lead to excessive
laser output power. A leakage path to ground on this
node will trigger the fault detection circuit, which will turn
off the laser drive current source and set the LASER_NEN
output high. When used in combination with external
component as shown in the block diagram below, the
system will prevent excessive laser power for a resistive
path at XY_LASER by shutting off the laser. In addition
to the ground path fault detection described above, the
fault detection circuit is periodically checking for proper
operation by internally generating a path to ground with
the laser turned off via LASER_NEN. If the –VCSEL pin is
shorted to VDD5, VDD3, REFA or REFB pin, this test will fail
and will be reported as a fault.
VDD3
GND
VCSEL
+VCSEL
–VCSEL
LASER_NEN
G
VDD3/REFB
(Pin 12)
D
S
470 pF
P_MOSFET

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