Color/proximity sensor

Transcription

1 Color sensor, proximity sensor, and 3-color LED incorporated into a single package This is a multifunctional sensor that incorporates a color sensor, proximity sensor, and 3-color LED in a small package ( mm). It can be used to adjust the display image quality, perform touchscreen on/off control, indicate incoming calls, and so forth on smartphones and the like. The color sensor not only detects the ratios of ambient light but also functions as an illuminance sensor. This feature enables image quality to be adjusted in fine detail. In smartphone applications, the proximity sensor detects when a face draws near and turns off the touchscreen function and the LCD backlight. We provide an evaluation kit for this product as well as an evaluation board. Contact us for detailed information. Features pplications I 2 C interface: 400 khz, Fast mode Low supply voltage: Vdd=2.25 V to 3.63 V I 2 C bus voltage: 1.65 V Low current consumption Small package ( mm) Supports lead-free reflow soldering Smartphones, TV and PC displays, tablets, etc. (image quality adjustment, touchscreen on/off control, incoming call indication) bsolute maximum ratings (Ta=25 C) Parameter Symbol Condition Value Unit Supply voltage Vdd -0.3 to +4 V Load current Io ±10 m Power dissipation P 100 mw Operating temperature Topr No dew condensation* 1-30 to +80 C Storage temperature Tstg No dew condensation* 1-40 to +85 C LED forward current IF ed: 30, reen, lue: 20* 2 m LED pulse forward current IF 100* 2 * 3 m LED reverse voltage V 5* 2 V eflow soldering conditions* 4 Tsol Peak temperature 260 C max., 3 times - *1: When there is a temperature difference between a product and the surrounding area in high humidity environment, dew condensation may occur on the product surface. Dew condensation on the product may cause deterioration in characteristics and reliability. *2: When driven externally *3: Duty ratio 10%, pulse width 0.1 ms *4: Moisture absorption and reflow conditions: JEDEC J-STD-020D LEVEL3 Note: Exceeding the absolute maximum ratings even momentarily may cause a drop in product quality. lways be sure to use the product within the absolute maximum ratings. ecommended operating conditions Parameter Symbol Condition Min. Typ. Max. Unit Supply voltage Vdd V I 2 C bus pull-up voltage* 5 Vbus p=2.2 kω Vdd V High level input voltage (SD, SCL) Vih Vdd V Low level input voltage (SD, SCL) Vil Vbus V us capacitance (SD, SCL) Cbus pf *5: The pull-up resistance is determined by the Cbus capacitance and Vbus voltage. Satisfy the following condition: Vdd - Vbus < 1.2 V. 1

2 Electrical and optical characteristics Color sensor area [Ta=25 C, Vdd=3.3 V, light source (initial setting: low gain, integration time: 100 ms/ch), unless otherwise noted] Parameter Symbol Condition Min. Typ. Max. Unit lue 395 to 530 Spectral response range λ reen 490 to 600 nm ed 590 to 660 lue Peak sensitivity wavelength λp reen nm ed Operation mode Idd E=0 lx (dark state), excluding Current consumption Standby mode Idds output current µ Dark count Sd E=0 lx (dark state), initial setting counts Sbh lue Photosensitivity High gain Sgh reen Integration time=100 ms/ch Srh ed counts/lx Sirh Infrared High/Low sensitivity gain ratio times ed/lue sensitivity ratio Srh/Sbh Integration time=100 ms/ch ed/reen sensitivity ratio High gain Srh/Sgh Same chip lue/reen sensitivity ratio Sbh/Sgh I 2 C area (Ta=25 C, Vdd=Vbus=3.3 V, unless otherwise noted) Parameter Symbol Condition Min. Typ. Max. Unit I 2 C address DD 7-bit 0x2 I 2 C clock frequency fclk khz SD, SCL output voltage High level Voh p=2.2 kω 0.8Vbus - - V Low level Vol p=2.2 kω V I/O terminal capacitance Ci pf SD/SCL output fall time* 5 tf p=2.2 kω, Cp=400 pf ns *5: The SCL/SD output rise time is determined by the time constant defined by Cbus p. Note: I 2 C interface (SD, SCL) timing complies with The I 2 C-bus specification version 2.1. Proximity sensor area (Ta=25 C, Vdd=3.3 V, unless otherwise noted) Parameter Symbol Condition Min. Typ. Max. Unit Peak sensitivity wavelength λ nm Photosensitivity λ=630 nm /W Distance measurement current consumption Iddp During operation µ High level LED pulse width Tw µs LED drive current ILED When set to maximum* m llowable background light level Ex lx Measurement time Tm When set to minimum (3 pulses) µs Detection distance ILED=32 m, TH=32, reflector=white mm *6: Set the LED drive current to 100 m or less. Set the red LED register to 0x0C or less. LED area (Ta=25 C, Vdd=3.3 V, unless otherwise noted) Parameter Symbol Condition Min. Typ. Max. Unit ed Forward voltage VF reen IF=5 m V lue ed everse current I reen V=5 V µ lue ed Luminous intensity Iv reen IF=5 m mcd lue ed Dominant wavelength λd reen IF=5 m nm lue Pulse forward current IFP Duty ratio < 10%, pulse width < 0.1 ms m 2

3 egister map drs Function 00 sensor control 01 Manual timing (high byte) 02 Manual timing (low byte) 03 Output data (high byte) 04 Output data (low byte) 05 Output data (high byte) 06 Output data (low byte) 07 Output data (high byte) 08 Output data (low byte) 09 Output data (high byte) 0 Output data (low byte) 0 Proximity sensor control 1 bit Color sensor Color sensor Sleep Color sensor ain Integration sleep function Integration time setting reset function register reset selection mode monitor Proximity sensor reset Proximity sensor sleep function Manual timing (low byte) ed channel data (16-bit) reen channel data (16-bit) lue channel data (16-bit) Infrared channel data (16-bit) ed LED drive current selection for proximity sensor 0C Proximity sensor control 2 Proximity sensor duration selection Pulse count selection 0D Proximity sensor threshold Proximity sensor threshold control (8-bit)* 8 0E 3-color LED drive control 1* 9 3-color LED reset 3-color LED sleep function DC mode 1/10 mode ed LED drive current selection 0F 3-color LED drive control 2 reen LED drive current selection lue LED drive current selection 10 Monitor Color sensor INT sleep function monitor monitor Pulse count monitor *8: Set the threshold level to 0x10 (10000 in binary notation) or higher. *9: With the initial setting, the 3-color LED emits pulses. When set to DC mode, it emits DC light. Note: When using the LED in DC mode, set the current for red to 30 m or less and that for green and blue to 20 m or less. If the LED forward current is set to a high level, the LED will illuminate brightly. e careful as the bright light may be hazardous to the eyes if viewed directly. egister map (initial settings) bit drs Color sensor Color sensor Color sensor Integration 0 Sleep function sleep function register ain selection Integration time setting reset mode monitor reset Initial setting : operation 1: reset Proximity sensor reset 0: operation 1: sleep Proximity sensor sleep function ead only 0: reset release 1: address : high gain 1: low gain 0: fixed time mode 1: manual setting mode Integration time setting (00) 32 µs (01) 0.5 ms (10) 8.2 ms (11) 65.5 ms ed LED drive current selection for proximity sensor Initial setting : operation 1: reset 0: operation 1: sleep m 1: 64 m m 1: 32 m m 1: 16 m m 1: 8 m 0C Proximity sensor duration selection Pulse count selection Initial setting s 1: 524 ms s 1: 262 ms s 1: 131 ms s 1: 64 ms 1: 24 pulses 1: 12 pulses 1: 6 pulses 1: 3 pulses 0D Proximity sensor threshold control (8-bit) Initial setting Threshold voltage s 1: 825 mv s 1: 413 mv s 1: 206 mv s 1: 103 mv 1: 51.6 mv 1: 25.8 mv 1: 12.9 mv 1: 6.4 mv Note: The initial settings may vary depending on the product. 3

4 egister map (initial settings) drs bit E 3-color LED 3-color LED reset sleep function DC mode 1/10 mode ed LED drive current selection Initial setting : operation 0: operation 0: pulse mode 0: normal mode 1: reset 1: sleep 1: DC mode 1: 1/10 mode 1: 128 μs 1: 64 μs 1: 32 μs 1: 16 μs 0F reen LED drive current selection lue LED drive current selection Initial setting m 1: 128 μs m 1: 64 μs m 1: 32 μs m 1: 16 μs m 1: 128 μs m 1: 64 μs 1: 32 μs 1: 16 μs Program example Condition 1: Initial settings [manual setting mode, Tint=00 (32 μs), integration time=100 ms/ch (manual timing register set to 0x0C30)] Command ction Data body ck emark ddress call (0x2) S W 7-bit address egister call (0x00) Specifies the control byte egister write (0x84) DC reset, standby release ddress call (0x2) Sr W estart, address egister call (0x00) Specifies the control byte egister write (0x04) P DC reset release, bus release Stands by for longer than the integration time (standby time > 400 ms) ddress call (0x2) S W 7-bit address egister call (0x03) Specifies the output data byte ddress call (0x2) Sr Changes to read mode Data read out (ed: high byte) X X X X X X X X Data read out (ed: low byte) X X X X X X X X ed data output Data read out (reen: high byte) X X X X X X X X Data read out (reen: low byte) X X X X X X X X reen data output Data read out (lue: high byte) X X X X X X X X Data read out (lue: low byte) X X X X X X X X lue data output Data read out (infrared: high byte) X X X X X X X X Infrared data output Data read out (infrared: low byte) X X X X X X X X Ā P S=Start condition, Sr=estart condition, =cknowledge, =cknowledge by host, P=Stop condition, =ead mode (1), W=Write mode (0), Ā=not acknowledge Format S 0x2 (7-bits) W 0x00 0x84 Sr 0x2 (7-bits) W 0x00 0x04 P Standby S 0x2 (7-bits) W 0x03 Sr 0x2 (7-bits) P from master to slave from slave to master KPICC0318E 4

5 Condition 2: [Fixed time mode, Tint=01 (0.5 ms), integration time=1.0 ms/ch] Command ction Data body ck emark ddress call (0x2) S W 7-bit address egister call (0x00) Specifies the control byte egister write (0x81) DC reset, standby release ddress call (0x2) Sr W estart, bit address egister call (0x00) Specifies the control byte egister write (0x01) P DC reset release, bus release Stands by for longer than the integration time Measurement takes place during standby (standby time > 4 ms). Measurements are repeated continuously. ddress call (0x2) S W 7-bit address egister call (0x03) Specifies the sensor data byte ddress call (0x2) Sr Changes to read mode Data read out (ed: high byte) X X X X X X X X Data read out (ed: low byte) X X X X X X X X ed data output Data read out (reen: high byte) X X X X X X X X Data read out (reen: low byte) X X X X X X X X reen data output Data read out (lue: high byte) X X X X X X X X Data read out (lue: low byte) X X X X X X X X lue data output Data read out (infrared: high byte) X X X X X X X X Infrared data output Data read out (infrared: low byte) X X X X X X X X Ā P S=Start condition, Sr=estart condition, =cknowledge, =cknowledge by host, P=Stop condition, =ead mode (1), W=Write mode (0), Ā=not acknowledge Format S 0x2 (7-bits) W 0x00 0x81 Sr 0x2 (7-bits) W 0x00 0x01 P Standby S 0x2 (7-bits) W 0x03 Sr 0x2 (7-bits) P from master to slave from slave to master KPICC0319E 5

6 Condition 3: [Manual setting mode, Tint=01 (0.5 ms), integration time=357 ms/ch] Command ction Data body ck emark ddress call (0x2) S W 7-bit address egister call (0x00) Specifies the control byte egister write (0x85) DC reset, standby release egister write (0x01) Manual timing high byte egister write (0x65) Manual timing low byte ddress call (0x2) Sr W estart, 7-bit address egister call (0x00) Specifies the control byte egister write (0x05) P DC reset release, bus release Stands by for longer than the integration time. Measurement takes place during standby (standby time > 1428 ms). Measurements are repeated continuously. ddress call (0x2) S W 7-bit address egister call (0x03) Specifies the sensor data byte ddress call (0x2) Sr Changes to read mode Data read out (ed: high byte) X X X X X X X X Data read out (ed: low byte) X X X X X X X X ed data output Data read out (reen: high byte) X X X X X X X X Data read out (reen: low byte) X X X X X X X X reen data output Data read out (lue: high byte) X X X X X X X X Data read out (lue: low byte) X X X X X X X X lue data output Data read out (infrared: high byte) X X X X X X X X Infrared data output Data read out (infrared: low byte) X X X X X X X X Ā P S=Start condition, Sr=estart condition, =cknowledge, =cknowledge by host, P=Stop condition, =ead mode (1), W=Write mode (0), Ā=not acknowledge Format S 0x2 (7-bits) W 0x00 0x85 0x01 0x65 Sr 0x2 (7-bits) W 0x00 0x05 P Standby S 0x2 (7-bits) W 0x03 Sr 0x2 (7-bits) P from master to slave from slave to master KPICC0320E 6

7 Condition 4: [ed LED drive current=0xc (96 m), proximity cycle=0x01 (64 ms), pulse count=0x01 (3 times), threshold level=0x20 (32)] Command Starting operation ction Data body ck emark ddress call (0x2) S W 7-bit address egister call (0x0) Specifies the control byte egister write (0x8C) Sleep release, drive current egister write (0x11) Proximity cycle, pulse count egister write (0x20) Threshold level ddress call (0x2) Sr W estart, 7-bit address egister call (0x0) Specifies the control byte egister write (0x0C) P Proximity reset release, bus release Monitor bit 7 at address 0x10 to read the value of INT from I 2 C. ction Data body ck emark ddress call (0x2) S W 7-bit address egister call (0x10) Specifies the output data byte ddress call (0x2) Sr Changes to read mode Data read out X X X X X X X X Ā P Ending operation ction Data body ck emark ddress call (0x2) S W 7-bit address egister call (0x0) Specifies the output data byte egister write (0xCC) P Sleep S=Start condition, Sr=estart condition, =cknowledge, =cknowledge by host, P=Stop condition, =ead mode (1), W=Write mode (0), Ā=not acknowledge Format Starting operation S 0x2 (7-bit) W 0x0 0x8C 0x11 0x20 Sr 0x2 (7-bit) W 0x0 0x0C P eading INT from I 2 C S 0x2 (7-bit) W 0x10 Sr 0x2 (7-bit) P Ending operation S 0x2 (7-bits) W 0x0 0xCC P from master to slave from slave to master KPICC0321E 7

8 Condition 5: [ed LED light emission pulse width=0x01 (16 µs), green LED light emission pulse width=0x01 (16 µs), blue LED light emission pulse width=0x01 (16 µs)] Command Starting operation ction Data body ck emark ddress call (0x2) S W 7-bit address egister call (0x0E) Specifies the control byte egister write (0x81) Sleep release, red light emission pulse width egister write (0x11) reen light emission pulse width, blue light emission pulse width ddress call (0x2) Sr W estart, 7-bit address egister call (0x0E) Specifies the control byte egister write (0x01) P LED driver reset release, bus release Ending operation ction Data body ck emark ddress call (0x2) S W 7-bit address egister call (0x0E) Specifies the control byte egister write (0xC1) P Sleep S=Start condition, Sr=estart condition, =cknowledge, =cknowledge by host, P=Stop condition, =ead mode (1), W=Write mode (0), Ā=not acknowledge Format Starting operation S 0x2 (7-bits) W 0x0E 0x81 0x11 Sr 0x2 (7-bits) W 0x0E 0x01 P Ending operation S 0x2 (7-bits) W 0x0E 0xC1 P from master to slave from slave to master KPICC0322E 8

9 Flowcharts Color sensor 1. Power-on 2. Power-on reset, initialize 3. DC reset = 1, color sleep release 4. Set measurement conditions ain, integration mode, integration time setting, integration timing register setting 5. DC reset = 0 Integration mode? Fixed time mode 6. Measure Manual setting mode 6. Measure fter power-on, the built-in power-on reset circuit operates to set all registers to their initial conditions (2.). With the initial settings, the product is in sleep mode, waiting for commands. To set measurement conditions, enter commands via the I 2 C bus. This product starts measuring when DC reset changes from 1 to 0. Therefore, to write to registers, DC reset must be set to 1 (3.). fter setting measurement conditions (4.), release DC reset to start measuring (5.). There are two operation modes: fixed time mode and manual setting mode. In manual setting mode, the product automatically enters sleep mode after completing a single measurement. In fixed time mode, the product repeats measurement and data storage. During this repetition, if DC reset or Color sleep is set to 1 with an I 2 C command, the product stops its operation. 7. Save data to register 7. Save data to register Color sleep= 1? No Yes 8. Stop (sleep mode) KPICC0323E Proximity sensor 1. Power-on 2. Power-on reset, initialize 3. Prox. reset = 1, prox. sleep release 4. Set measurement conditions ed LED drive current, prox. period, pulse count With the initial settings, the proximity sensor is in sleep mode. Therefore, first disable the sleep mode (3.). Next, set the drive current, pulse count, pulse cycle, and the like. Then, release the reset to start measuring (4. 5.). Proximity sensor continues to measure until it is set to sleep mode. To end measurement, enable sleep mode. 5. Prox. reset = 0 Proximity detected? No Yes 6. INT=1 6. INT=0 No Prox. sleep = 1? Yes Stop (sleep mode) KPICC0324E 9

10 3-color LED 1. Power-on 2. Power-on reset, initialize 3. 3-color LED reset = 1, 3-color LED sleep release 4. Set measurement conditions 1/10, DC mode, light emission pulse width (red, green, blue) With the initial settings, the 3-color LED driver is in sleep mode. Therefore, first disable the standby mode (3). Next, set the light emission pulse width of each color, 1/10 mode, and the like. Then, release the reset to start measuring (4, 5). 3-color LED drivers continue to operate until they are set to sleep mode. To end operation, enable standby mode color LED reset = 0 3-color LED driver circuit operation No 3-color LED sleep = 1? Yes Stop (sleep mode) KPICC0325E Spectral response Linearity 200 (Typ. Ta=25 C) 10 6 (Typ. Ta=25 C) elative sensitivity (%) lue reen ed Converted count Infrared ed reen lue Wavelength (nm) KPIC0179EC Illuminance (lx) KPIC0183E 10

11 Proximity distance vs. LED current Proximity distance vs. LED current (by color) 100 (Typ. Ta=25 C, Vdd=3.3 V, white reflection plate) 90 (Typ. Ta=25 C, Vdd=3.3 V, threshold level=20) Proximity distance (mm) When moved from far to near When moved away from 0 mm Proximity distance (mm) White Light skin Neutral Dark skin LED current (m) KPIC0180E 10 lack LED current (m) KPIC0186E Maximum LED forward current vs. ambient temperature (typical example) 35 LED power dissipation vs. ambient temperature (typical example) 140 Maximum forward current (m) lue reen ed Power dissipation (mw) mbient temperature ( C) KPIC0184E mbient temperature ( C) KPIC0185E 11

12 lock diagram /D converter VDD SD I Color sensor Current-to-frequency conversion Timer Proximity sensor Counter 16 egister I 2 C interface LED Driver circuit LED SCL INT ed LED reen LED node lue LED ND KPICC0206E Timing chart Color sensor (manual mode) Current consumption Start mode Idd Integration time (sum of the integration times of each color) Idds Time The color sensor only has a single DC port. s such, photometry is performed consecutively for each color. The data of each color is stored temporarily in buffer registers (not the I 2 C register). fter the completion of the infrared measurement, the entire set of data is stored in the I 2 C register. If this product is set to manual mode, after the integration time elapses, it will automatically switch to sleep mode. The integration time per cycle is the sum of the detection time of each color. I 2 C command Standby time Initialization, measurement instruction eadout KPICC0214E Color sensor (fixed time mode) Current consumption I 2 C command Start mode Integration time (1 cycle) Standby time Idd Time The measurement time is the shortest under the following conditions. <Conditions> Fixed time mode, Tint=00 (32 µs) Integration time: 32 µs/color SCL frequency: 400 khz Initialization measurement instruction: 135 µs Standby time (>integration time): 32 4=128 µs eadout: µs Initialization, measurement instruction eadout KPICC0215E Measurement time: µs 12

13 Proximity sensor I 2 C command Initialization, measurement instruction Distance measurement current consumption LED LT DT INT Pulse number 3 to 45 eadout ed LED drive current In the proximity sensor, the light emission pulse count is designed to be adjustable in integer multiples of 3 from 3 to 45 in order to increase measurement precision. The interrupt signal (INT) is set to 1 only when all pulses are detected. red LED is used for light emission. The drive current can be changed in the range of 8 m to 96 m in 8-m steps. The proximity cycle can be changed in the range of 65.5 ms to ms in 65.5-ms steps. Measurement is performed every proximity cycle. When measurement is not performed, the sensor automatically switches to sleep mode. Proximity cycle 65.5 ms to ms KPICC0216E 3-color LED driver I 2 C command Initialization, measurement instruction ed LED reen LED lue LED 1.6 ms (625 Hz fixed) ed LED pulse width reen LED pulse width lue LED pulse width eadout The 3-color LED emits light in the order red, green, and blue. The light emission pulse width can be set in the range of 0 μs to 240 μs in 16-μs steps (16 levels total). The light emission pulse width can be set for each color. The light emission cycle is fixed at approximately 1.6 ms, and the drive current is fixed at 8 m. If set to low current mode, the forward current of each color LED is set to 0.8 m, which is 1/10 the initial setting. If set to DC mode, the drive current is set to direct current and can be set in the range of 8 m to 120 m in 8-m steps. In DC mode, set the forward current to 30 m or less for red and 20 m or less for green and blue. LED: sleep KPICC0217E Connection example Vdd (2.25 to 3.63 V) Vbus (1.65 V to Vdd+0.5) p (3 kω) p (3 kω) 0.1 uf Vdd SCL SD SCL SD 10 uf 0.1 uf ND INT ed LED node reen LED Microcontroller Vanode (3.3 to 5.0 V) lue LED KPICC0218E Note: When the LED is emitting light or when the proximity sensor is in use, do not externally drive the LED. Set the LED s anode voltage to 3.3 V or higher. 13

14 Dimensional outline (unit: mm) Photosensitive area (0.5) Photosensitive surface Shielded area 3-color LED P0.8 4= ( 10) ϕ0.3 Vdd node NC reen LED INT ND lue LED SD ed LED SCL Tolerance unless otherwise noted: ±0.2 Note: When using this product, contact us for technical information. Please check the technical information first, and then create an appropriate device design. KPIC0098E Enlarged view of photosensitive area (unit: mm) ecommended land pattern (unit: mm) P0.8 4= KPICC0213E (10 )ϕ0.4 KPICC0251E 14

15 Standard packing specifications eel Dimensions Hub diameter Tape width Material Electrostatic characteristics 180 mm 60 mm 12 mm PS Conductive Embossed tape (unit: mm, material: PS, conductive) ϕ ± ± ± ± ± ± 0.05 ϕ eel feed direction 0.25 ± ± ± 0.05 KPICC0219E Packing quantity 2000 pcs/reel Packing type eel and desiccant in moisture-proof packaging (vacuum-sealed) 15

16 Measured example of temperature profile with our hot-air reflow oven for product testing Peak temperature - 5 C 30 s max. Peak temperature: 260 C Temperature ( C) 217 C 200 C 150 C Preheating 60 to 120 s 3 C/s max. -6 C/s max. Soldering 60 to 150 s 25 C to peak temperature: 8 min max. Time (s) KPICC0220E This product supports lead-free soldering. fter unpacking, store it in an environment at a temperature of 30 C or less and a humidity of 60% or less, and perform soldering within 168 hours. The effect that the product receives during reflow soldering varies depending on the circuit board and reflow oven that are used. efore actual reflow soldering, check for any problems by testing out the reflow soldering methods in advance. elated information Precautions Disclaimer Surface mount type products 16

17 Evaluation kit for color/ proximity sensor () n evaluation kit [60 mm (H) 21.5 mm (V)] for understanding the operating principle of Hamamatsu s color / proximity sensor is available. Contact us for detailed information. color sensor lineup Type no. (mm) S Photodiode ϕ2.0 S9702 S T S CT Digital S photo IC S C S DT /-03DS Type Photodiode Photodiode Photodiode Digital photo IC I 2 C compatible color sensor Photosensitive area Package (mm) t 6 pin (filter 0.75 t ) t 4 pin (filter 0.75 t ) t CO (on-chip filter) t CO (on-chip filter) t 6 pin (filter 0.75 t ) t CO (on-chip filter) t 10 pin (on-chip filter) I 2 C t S WT compatible WL-CSP color sensor (on-chip filter) * efer to the spectral response of each product s datasheet. Peak sensitivity wavelength (nm) I * * Low Low Low Low I 0.18 (/W) [λ=460 nm] 0.23 (/W) [λ=540 nm] 0.16 (/W) [λ=620 nm] 0.18 (/W) [λ=460 nm] 0.23 (/W) [λ=540 nm] 0.16 (/W) [λ=620 nm] 0.2 (/W) [λ=460 nm] 0.23 (/W) [λ=540 nm] 0.17 (/W) [λ=620 nm] 0.21 (/W) [λ=460 nm] 0.25 (/W) [λ=540 nm] 0.45 (/W) [λ=640 nm] I 0.21 (LS/lx) 0.45 (LS/lx) 0.64 (LS/lx) 0.3 (LS/lx) 0.6 (LS/lx) 1.4 (LS/lx) 4.4 (count/lx) 8.3 (count/lx) 11.2 (count/lx) 3.0 (count/lx) Photosensitivity High High High 9.48 (count/lx) 7.61 (count/lx) 3.35 (count/lx) I I 1.66 (count/lx) I High 1.9 (LS/lx) 4.1 (LS/lx) 5.8 (LS/lx) 2.6 (LS/lx) 5.3 (LS/lx) 12.9 (LS/lx) 44.8 (count/lx) 85.0 (count/lx) (count/lx) 30.0 (count/lx) 94.5 (count/lx) 76.2 (count/lx) 31.7 (count/lx) 15.3 (count/lx) Photo 17

18 Information described in this material is current as of May Product specifications are subject to change without prior notice due to improvements or other reasons. This document has been carefully prepared and the information contained is believed to be accurate. In rare cases, however, there may be inaccuracies such as text errors. efore using these products, always contact us for the delivery specification sheet to check the latest specifications. The product warranty is valid for one year after delivery and is limited to product repair or replacement for defects discovered and reported to us within that one year period. However, even if within the warranty period we accept absolutely no liability for any loss caused by natural disasters or improper product use. Copying or reprinting the contents described in this material in whole or in part is prohibited without our prior permission. HMMTSU PHOTONICS K.K., Solid State Division Ichino-cho, Higashi-ku, Hamamatsu City, Japan, Telephone: (81) , Fax: (81) U.S..: Hamamatsu Corporation: 360 Foothill oad, ridgewater, N.J , U.S.., Telephone: (1) , Fax: (1) , ermany: Hamamatsu Photonics Deutschland mbh: rzbergerstr. 10, D Herrsching am mmersee, ermany, Telephone: (49) , Fax: (49) , France: Hamamatsu Photonics France S...L.: 19, ue du Saule Trapu, Parc du Moulin de Massy, Massy Cedex, France, Telephone: 33-(1) , Fax: 33-(1) , United Kingdom: Hamamatsu Photonics UK Limited: 2 Howard Court, 10 Tewin oad, Welwyn arden City, Hertfordshire L7 1W, United Kingdom, Telephone: (44) , Fax: (44) , info@hamamatsu.co.uk North Europe: Hamamatsu Photonics Norden : Torshamnsgatan Kista, Sweden, Telephone: (46) , Fax: (46) , info@hamamatsu.se Italy: Hamamatsu Photonics Italia S.r.l.: Strada della Moia, 1 int. 6, rese (Milano), Italy, Telephone: (39) , Fax: (39) , info@hamamatsu.it China: Hamamatsu Photonics (China) Co., Ltd.: 1201, Jiaming Center, No.27 Dongsanhuan eilu, Chaoyang District, eijing , China, Telephone: (86) , Fax: (86) , hpc@hamamatsu.com.cn Taiwan: Hamamatsu Photonics Taiwan Co., Ltd.: 8F-3, No. 158, Section2, ongdao 5th oad, East District, Hsinchu, 300, Taiwan.O.C. Telephone: (886) , Fax: (886) , info@hamamatsu.com.tw 18 Cat. No. KPIC1084E06 May 2018 DN