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_________________________________________________________________ maxim integrated products 1 19-6128; rev 0; 11/11 component lists ordering information appears at end of data sheet. max44000 ev system max44000 ev kit windows, windows xp, and windows vista are registered trademarks of microsoft corp. general description the max44000 evaluation system (ev system) includes one max44000 evaluation kit (ev kit) and one max44000 daughter board. the ev kit is a fully assembled and test - ed pcb that evaluates the max44000 ambient light and proximity sensor. the ev system also includes windows xp m -, windows vista m -, and windows m 7-compatible software that provides a simple graphical user interface (gui) for exercising the features of the device. the ev kit comes installed with a max44000gdt+ in a 6-pin otdfn package with an exposed pad. the daughter board is an external device-under-test module that also comes with a max44000gdt+ installed. the daughter board can be connected to and controlled by the ev kit. the user can also evaluate the device by connecting a user-supplied controller to the daughter board. features s usb powered s daughter board powered by the ev kit s on-board ir led on ev kit and daughter board s windows xp-, windows vista-, and windows 7-compatible software s continuous data acquisition s ambient light and proximity signal plotting in the ev system software s rohs compliant s proven pcb layout s fully assembled and tested qty description 1 max44000 ev kit 1 max44000 daughter board designation qty description c1Cc17 17 47nf q 10%, 16v, x7r ceramic capacitors (0603) murata grm188r71c473k c18Cc33 16 1nf q 10%, 50v, x7r ceramic capacitors (0603) murata grm188r71h102k c34, c52, c79, c80, c101 5 1 f f q 10%, 16v x5r ceramic capacitors (0603) murata grm188r61c105k c35, c44, c46, c50, c53Cc56, c60, c61, c62, c64, c65, c66, c74, c76, c78, c100 18 0.1 f f q 10%, 16v x7r ceramic capacitors (0603) tdk c1608x7r1c104k designation qty description c36, c39 2 0.01 f f q 10%, 50v, x7r ceramic capacitors (0603) murata grm188r71h103k c37 1 10pf q 5%, 50v c0g ceramic capacitor (0603) murata grm1885c1h100j c38 1 15pf q 5%, 50v c0g ceramic capacitor (0603) murata grm1885c1h150j c40, c41 2 39pf q 5%, 50v c0g ceramic capacitors (0603) murata grm1885c1h390j c47, c48 2 4.7 f f q 10%, 25v x5r ceramic capacitors (1206) murata grm31cr71e475m max44000 evaluation system evaluates: max44000 for pricing, delivery, and ordering information, please contact maxim direct at 1-888-629-4642, or visit maxims website at www.maxim-ic.com.
_________________________________________________________________ maxim integrated products 2 component lists (contined) max44000 ev kit (continued) designation qty description c49, c63, c67, c68, c73, c75, c81 7 10 f f q 10%, 25v, x5r ceramic capacitors (1206) murata grm31cr61e106k c57 1 0.033 f f q 10%, 16v x5r ceramic capacitor (0603) taiyo yuden emk107bj333ka c58, c59, 2 22pf q 5%, 50v c0g ceramic capacitors (0603) murata grm1885c1h220j c77 1 4.7 f f q 10%, 6.3v x5r ceramic capacitor (0603) murata grm188r60j475k dgnd, gnd (x3) 4 black test points dvdd, ext_vdd, vled 3 red test points exirled1, exirled2, ext_intb, ext_scl, ext_sda 5 white test points irled1 1 70ma, 1.6v, 860nm ir led diode (midled) osram sfh4651 irled2 0 not installed, diode j1 1 2 x 3 right-angle female header j2 0 not installed, 24-pin (2 x 12) header j3, 1 usb type-b right-angle pc-mount receptacle j4 1 2 x 3 right-angle male header jspi 0 not installed, 6-pin header jtag1 1 6-pin header jtag2 1 dual-row 10-pin (2 x 5) header ju1Cju4 0 not installed, 2-pin headers ju5 0 not installed, 3-pin header ju6, ju7, ju8, ju11 4 2-pin headers ju10, ju12Cju16 6 3-pin headers ju17 1 4-pin header l1, 1 ferrite bead (0603) tdk mmz1608r301a led1, led2, led3 3 red leds (0603) designation qty description ld1, ld2 2 light dams maxim epcb44000ld+ q100 1 p-channel fet (sot223) r1, r3, r4, r19, r21Cr24 8 4.7k i q 5% resistors (0603) r2, r16, r17, r18 4 100 i q 5% resistors (0603) r5 1 390 i q 5% resistor (0603) r6, r7, r8, r27, r36, r57, r58Cr61 10 10k i q 5% resistors (0603) r9, r10, r11 3 200 i q 5% resistors (0603) r12, r14, r25, r29 4 10 i q 5% resistors (0603) r13 1 150 i q 5% resistor (0603) r15 1 56 i q 5% resistor (0603) r20, r28 2 680 i q 5% resistors (0603) r26, r100 2 1k i q 5% resistors (0603) r30 1 18.7k i q 1% resistor (0603) r31, r43, r44, r46 4 10k i q 1% resistors (0603) r32, r33 2 27 i q 5% resistors (0603) r34 1 1.5k i q 5% resistor (0603) r35 1 2.2k i q 5% resistor (0603) r37Cr41 0 not installed, resistors (0603) r42, r45, r62 3 100k i q 5% resistors (0603) r47 1 20k i q 1% resistor (0603) r48 1 470 i q 5% resistor (0603) r55 1 49.9k i q 1% resistor (0603) r56 1 40.2k i q 1% resistor (0603) s1 1 4-position, half-pitch smt dip switch u1 1 ambient and infrared proximity sensor (6 otdfn) maxim max44000gdt+ u2 1 white led driver (24 tqfn) maxim max8879etg+ u3 0 not installed, serial prom u4 0 not installed, spi flash u6, u7 2 ldos (16 tssop-ep) maxim max1793eue50+ u8 1 usb-to-uart converter (32 tqfp) u9 1 93c46 type 3-wire eeprom (8 so) max44000 evaluation system evaluates: max44000
_________________________________________________________________ maxim integrated products 3 note: indicate that you are using the max44000 when contacting these component suppliers. component lists (contined) component suppliers max44000 ev system files max44000 ev kit (continued) max44000 daughter board designation qty description c1 1 1 f f q 10%, 10v x7r ceramic capacitor (0603) murata grm188r71a105k irled1 1 70ma, 1.6v, 860nm ir led diode (midled) osram sfh4651 designation qty description j1 1 2 x 3 right-angle female header u1 1 ambient and infrared proximity sensor (6 otdfn) maxim max44000gdt+ pcb 1 pcb: max44000 daughter board+ supplier phone website hong kong xtals ltd. 852-35112388 www.hongkongcrystal.com murata electronics north america, inc. 770-436-1300 www.murata-northamerica.com taiyo yuden 800-348-2496 www.t-yuden.com tdk corp. 847-803-6100 www.component.tdk.com file description install.exe installs the ev system files on your computer max44000.exe application program cdm20600.exe installs the usb device driver uninstall.exe uninstalls the ev kit software usb_driver_help_200.pdf usb driver installation help file designation qty description u10, u15 2 ldos (6 sot23) maxim max1983eut+ u13 1 spartan 3an fpga (144-tqfp) u14 1 microcontroller (68 qfn-ep) maxim maxq2000-rax+ wled 1 white led y1 1 50mhz oscillator y2 1 6mhz crystal hong kong xtals ssl60000n1hk188f0-0 designation qty description y3 0 not installed, crystal y4 1 20mhz crystal 4 0.250in x 0.625in 4-40 round nylon spacers 4 4-40 x 0.375in nylon machine screws 1 usb high-speed a-to-b cables, 6ft 11 shunts 1 pcb: max44000 evaluation kit max44000 evaluation system evaluates: max44000
_________________________________________________________________ maxim integrated products 4 quick start required equipment ? max44000 ev kit (usb cable included) ? windows xp, windows vista, or windows 7 pc with a spare usb port note: in the following sections, software-related items are identified by bolding. text in bold refers to items directly from the ev system software. text in bold and underline refers to items from the windows operating system. procedure the ev kit is fully assembled and tested. follow the steps below to verify board operation: 1) visit www.maxim-ic.com/evkitsoftware to download the latest version of the ev kit software, 44000rxx.zip. save the ev kit software to a temporary folder and uncompress the zip file. 2) install the ev kit software and usb driver on your com - puter by running the install.exe program inside the temporary folder. the program files are copied to your pc and icons are created in the windows start | programs menu. during software installation, some versions of windows may show a warning message indicating that this software is from an unknown pub - lisher. this is not an error condition and it is safe to proceed with installation. administrator privileges are required to install the usb device driver on windows. 3) verify that all jumpers (ju6, ju7, ju8, and ju10C ju17) are in their default positions, as shown in table 1. 4) connect the usb cable from the pc to the ev kit board. a windows message appears when connect - ing the ev kit board to the pc for the first time. each version of windows has a slightly different message. if you see a windows message stating ready to use , then proceed to the next step. otherwise, open the usb_driver_help_200.pdf document in the windows start | programs menu to verify that the usb driver was installed successfully. 5) start the ev kit software by opening its icon in the start | programs menu. the ev kit software main window appears, as shown in figure 1. 6) on the proximity sensor configuration tab sheet (figure 2), in the transmit configuration group box, use the led drive current (drv[3:0]) track bar to set the ir led current to 10ma. press the adjacent set button. 7) select als and prox interleaved from the operation mode drop-down list. 8) on the data conversion tab sheet (figure 1), press the convert start button in the continuous conversion group box to view the ambient and prox - imity adc data on the graphs. detailed description of software the max44000 ev kit software (figure 1) has all the functions to configure the max44000 and receive the adc data from the device. the software contains an i2c interface group box, a status group box, and four tab sheets to configure the device and receive the ambient and proximity data from the device. i 2 c interface in the i2c interface group box, enter the register address in the reg address edit box and press the read button to read the register. the returned value is shown in the data edit box. to write a data into a register, enter the register address in the reg address edit box, enter the data into the data edit box, and press the write button. operating mode use the operating mode drop-down list to select one of the six operating modes. the operating modes are: shutdown , standard als , als green channel only , als red channel only , als and prox interleaved , and prox only . data conversion tab the single conversion group box on the data conversion tab sheet displays the ambient and proximity adc values for a single sample. press the convert button to update the values in the ambient and proximity group boxes. check the auto convert checkbox to automatically and repeatedly do the adc conversion and update the values in the ambient and proximity group boxes. check the save to file check - box to save the received data to a file. press the convert start button in the continuous conversion group box to continuously read the ambient and proximity adc data from the device and plot the data on the ambient sensor and proximity sensor graphs. the rate that the controller reads the data from the device is selected from the displaying rate drop- down list. the last ambient and proximity samples are displayed in the last als/prox reading group box in the status group box. check the save to file checkbox to save the received data to a file. the white led (wled) on the ev kit simulates the back - light of a cell phone. the software adjusts the brightness of the wled according to the ambient measurement. max44000 evaluation system evaluates: max44000
_________________________________________________________________ maxim integrated products 5 figure 1. max44000 ev kit software main window max44000 evaluation system evaluates: max44000
_________________________________________________________________ maxim integrated products 6 proximity sensor configuration tab the proximity sensor configuration tab sheet (figure 2) has all the functions to configure the proximity sensor of the device. in the transmit configuration group box, use the led drive current (drv[3:0]) track bar to select the desired irled drive current. the ir proximity led current is shown on the right of the track bar. press the set button to set the drv register. the proximity threshold group box can be used to control the proximity interrupt function. use the receiver threshold (prxthr[7:0]) track bar to select the proxim - ity threshold level and press the adjacent set button to set the prxthr register. after the proximity interrupt enable checkbox is checked, if the above the receiver threshold radio button is selected in the above / below proximity receiver select (above) group box, and the proximity measurement is greater than the value stored in the prxthr register, the interrupt event is recorded. similarly, if the below the receiver threshold radio button is selected, and the proximity measurement is less than the value stored in the prxthr register, the interrupt event is recorded. use the prxpst[1:0] drop- down list in the timer threshold group box to set the persist value that controls how readily the proximity inter - rupt logic reacts to a detected event. ambient sensor configuration tab the ambient sensor configuration tab sheet (figure 3) has all the functions to configure the ambient sensor of the device. in the receive configuration group box, use the alstim[1:0] drop-down list to set the integration time and resolution for the als adc. the alspga[1:0] drop-down list sets the gain of the ambient light sensing measurement. use the lux thresholds group box to set the upper and lower lux threshold. after the ambient interrupt enable checkbox is checked, if the ambient measurement is higher than the upper threshold or lower than the lower threshold, the interrupt event is recorded. the interrupt bit is reset only after reading the interrupt status register. in the upper threshold group box, use the upthr[13:0] track bar to select the desired upper lux threshold. press the adjacent set button to set the upthr register. similarly use the lothr[13:0] track bar in the lower threshold group box to select the desired lower lux threshold and press the adjacent set button to set the lothr register. use the alspst[1:0] drop-down list in the timer threshold group box to set the persist value that con - trols how readily the ambient interrupt logic reacts to a detected event. the gain control group box is used to modify the gain of the green channel and the ir channel. use the trim_gain_green[6:0] track bar to select the gain trim for the green channel. use the trim_gain_ir[8:0] track bar to select the gain trim for the ir channel. press the set button to set the trim_gain_green and trim_ gain_ir registers. check the trim enable checkbox to force the part to use the trim value written in the trim gain registers. status in the status group box, the last als/prox reading group box displays the last set of ambient and proximity adc data from the graphs on the data conversion tab sheet (figure 1). press the read button to read the status of the interrupt pin ( int ). if the interrupt signal is asserted, the status reg - ister (0x00) is read and displayed in the power/interrupt status group box. register map the register map tab sheet (figure 4) contains a regis - ter map of the device. the tab is organized from left to right with register names, bit names, register addresses, edit boxes, read buttons, and write buttons. the bit names are used to display the current state of each bit (bold text = 1). in addition, a registers bits can be indi - vidually toggled by single-clicking on the bits name. the edit boxes are used to display a registers state and are updated after a bit click or read button press. the user can also change the value of the register by entering a value in the edit box and pressing the adjacent write button. max44000 evaluation system evaluates: max44000
_________________________________________________________________ maxim integrated products 7 figure 2. proximity sensor configuration tab max44000 evaluation system evaluates: max44000
_________________________________________________________________ maxim integrated products 8 figure 3. ambient sensor configuration tab max44000 evaluation system evaluates: max44000
_________________________________________________________________ maxim integrated products 9 figure 4. register map tab max44000 evaluation system evaluates: max44000
________________________________________________________________ maxim integrated products 10 detailed description of hardware the max44000 ev system includes one max44000 ev kit and one max44000 daughter board. the ev kit is a fully assembled and tested pcb that evaluates the device ambient light and proximity sensor. the ev kit comes installed with a max44000gdt+ in a 6-pin otdfn pack - age with an exposed pad. the daughter board is an external device-under-test mod - ule that also comes with a max44000gdt+ installed. the daughter board can be connected to and controlled by the ev kit. the user can also evaluate the device by con - necting the user-supplied controller to the daughter board. ir led the on-board ir led is installed next to the device. a light dam board is placed between the ir led and the device to block crosstalk. to use a user-supplied ir led, install the user-supplied ir led on the irled2 footprint and place a shunt on jumper ju17 in the 1-4 position. to use an external ir led, connect the external ir led between the exirled1 and exirled2 connectors. then place the shunt on ju17 in the 1-3 position. power supply by default, the ev kit is usb powered. to use an external power supply, connect a 5v supply to the dvdd and dgnd connectors, and place a shunt on jumper ju10 in the 2-3 position. the daughter board is powered by its master board. user-supplied i 2 c interface to use the device on the ev kit with a user-supplied i 2 c interface, install shunts on jumpers ju12Cju16 in the 2-3 position. connect the scl, sda, int , vdd, and vled signals from the external i 2 c interface to the ext_scl, ext_sda, ext_intb, ext_vdd, and vled connectors on the ev kit, respectively. max44000 daughter board to use the daughter board with the ev kit and the ev kit software, remove the shunts on jumpers ju14, ju15, and ju16 to disconnect the device on the ev kit from the on-board controller. carefully connect the ev kit and the daughter board by aligning the 6-pin right-angle connector (j1) on the daughter board with the 6-pin right- angle header (j4) on the ev kit, and press them together. table 1. jumper settings * default position. jumper shunt position description ju6 1-2* the on-board ldo (u6) provides a 3.6v output to the ev kit. open disconnects the output of the on-board ldo (u6). ju7 1-2* the on-board ldo (u7) provides a 2.5v output to the ev kit. open disconnects the output of the on-board ldo (u7). ju8 1-2* the on-board ldo (u10) provides a 1.2v output to the ev system. open disconnects the output of the on-board ldo (u10). ju10 1-2* on-board ldos powered from the usb port. 2-3 connect an external 5v supply to the dvdd connector. ju11 1-2* the on-board ldo (u15) provides a 1.8v output to the ev system. open disconnects the output of the on-board ldo (u15). ju12 1-2* the on-board 2.5v supply connects to the anode of the ir led. 2-3 connect an external supply to the vled connector. ju13 1-2* the on-board 1.8v supply connects to the vdd pin of the device. 2-3 connect an external supply to the ext_vdd connector. ju14 1-2* sda signal on the device connected to the on-board microcontroller. 2-3 connect user-supplied sda signal to the on-board ext_sda pad. ju15 1-2* scl signal on the device connected to the on-board microcontroller. 2-3 connect user-supplied scl signal to the on-board ext_scl pad. ju16 1-2* int signal on the device connected to the on-board microcontroller. 2-3 connect user-supplied int signal to the on-board ext_intb pad. ju17 1-2* drv signal on the device connected to the cathode of the irled1. 1-3 drv signal on the device connected to the exirled2 connector. 1-4 drv signal on the device connected to the cathode of the irled2. max44000 evaluation system evaluates: max44000
________________________________________________________________ maxim integrated products 11 figure 5a. max44000 ev kit schematic (sheet 1 of 5) max44000 evaluation system evaluates: max44000
________________________________________________________________ maxim integrated products 12 figure 5b. max44000 ev kit schematic (sheet 2 of 5) max44000 evaluation system evaluates: max44000
________________________________________________________________ maxim integrated products 13 figure 5c. max44000 ev kit schematic (sheet 3 of 5) max44000 evaluation system evaluates: max44000
________________________________________________________________ maxim integrated products 14 figure 5d. max44000 ev kit schematic (sheet 4 of 5) max44000 evaluation system evaluates: max44000
________________________________________________________________ maxim integrated products 15 figure 5e. max44000 ev kit schematic (sheet 5 of 5) max44000 evaluation system evaluates: max44000
________________________________________________________________ maxim integrated products 16 figure 6. max44000 ev kit component placement guidecomponent side 1.0? max44000 evaluation system evaluates: max44000
________________________________________________________________ maxim integrated products 17 figure 7. max44000 ev kit pcb layoutcomponent side 1.0? max44000 evaluation system evaluates: max44000
________________________________________________________________ maxim integrated products 18 figure 8. max44000 ev kit pcb layoutlayer 2 1.0? max44000 evaluation system evaluates: max44000
________________________________________________________________ maxim integrated products 19 figure 9. max44000 ev kit pcb layoutlayer 3 1.0? max44000 evaluation system evaluates: max44000
________________________________________________________________ maxim integrated products 20 figure 10. max44000 ev kit pcb layoutbottom side 1.0? max44000 evaluation system evaluates: max44000
________________________________________________________________ maxim integrated products 21 figure 11. max44000 ev kit component placement guidebottom 1.0? max44000 evaluation system evaluates: max44000
________________________________________________________________ maxim integrated products 22 figure 12. max44000 daughter board schematic max44000 evaluation system evaluates: max44000
________________________________________________________________ maxim integrated products 23 figure 13. max44000 daughter board component placement guidecomponent side figure 14. max44000 daughter board pcb layouttop figure 15. max44000 daughter board pcb layoutbottom figure 16. max44000 daughter board component placement guidebottom side 1.0? 1.0? 1.0? 1.0? max44000 evaluation system evaluates: max44000
________________________________________________________________ maxim integrated products 24 # denotes rohs compliant. ordering information part type MAX44000EVSYS# ev system max44000 evaluation system evaluates: max44000
maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a maxim product. no circuit patent licenses are implied. maxim reserves the right to change the circuitry and specifications without notice at any time. maxim integrated products, 120 san gabriel drive, sunnyvale, ca 94086 408-737-7600 25 ? 2011 maxim integrated products maxim is a registered trademark of maxim integrated products, inc. revision history revision number revision date description pages changed 0 11/11 initial release max44000 evaluation system evaluates: max44000

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