general description the MAX17201g/MAX17201x/max17211g/max17211x evaluation kits (ev kits) are fully assembled and test - ed surface-mount pcbs that evaluate the stand-alone modelgauge? m5 pack-side fuel-gauge ics for lithium- ion (li+) batteries in handheld and portable equipment. the MAX17201 and max17211 are for single-cell appli - cations. see the max17205 and max17215 for multicell applications. the MAX17201g/MAX17201x/max17211g/max17211x ev kits include the maxim ds91230+ usb interface, ic evaluation board, and rj-11 connection cable. windows ? based graphical user interface (gui) software is avail - able for use with the ev kit and can be downloaded from maxims website www.maximintegrated.com/evkitsoft - ware . windows 7 or newer windows operating system is required to use with the ev kit gui software. benefts and features modelgauge m5 algorithm nonvolatile memory configured for stand-alone operation monitors 1s cell packs battery pack input voltage range of +2.1v to +4.9v per cell thermistor measurement network optional on-board pcb trace sense resistor windows 7 or newer compatible software proven pcb layout fully assembled and tested 19-8473; rev 1; 4/16 ordering information appears at end of data sheet. windows is a registered trademarks and registered service marks of microsoft corporation. modelgauge is a trademark of maxim integrated products, inc. quick start required equipment MAX17201g/MAX17201x/max17211g/max17211x ev kit lithium battery pack of desired configuration battery charger or power supply load circuit ds91230+ usb adapter rj-11 6pos reverse modular cord pc with windows 7 or newer windows operating sys - tem and usb port procedure the ev kits are fully assembled and tested. follow the steps below to install the ev kit software, make required hardware connections, and start operation of the kits. the ev kit software can be run without hardware attached. it automatically locates the hardware when connections are made. note that after communication is established the ic must still be confgured correctly for the fuel gauge to be accurate. see the confguration wizard and modelgauge m5 ez confguration sections of the gui software description. 1) visit www.maximintegrated.com/evkitsoftware to download the latest version of the MAX17201_05_11_15k ev kit software. save the ev kit software to a temporary folder and unpack the zip fle. 2) install the ev kit software on your computer by run - ning the MAX17201_05_11_15k_install.exe program inside the temporary folder. the program fles are copied and icons are created in the windows start menu. the software requires the .net framework 4.5 or later. if you are connected to the internet, windows automatically updates .net framework as needed. 3) the ev kit software launches automatically after in - stallation or alternatively it can be launched by click - ing on its icon in the windows start menu. 4) connect the ds91230+ adapter to a usb port on the pc. the ds91230+ is a hid device and is located automatically by windows without the need to install additional drivers. MAX17201g/MAX17201x/ max17211g/max17211x ev kit files file decription MAX17201_05_11_15k_ v2_0_0_0_install.exe installs all ev kit fles on your computer evaluate: MAX17201/max17211 MAX17201g/MAX17201x/ max17211g/max17211x evaluation kits
maxim integrated 2 5) make connections to the ev kit board based on cell pack confguration as shown in figure 1 . the cell connects between the bat- and bat+ pads and the charger/load connect between the pack- and pack+ pads. the load or charger circuit can be connected at this time as well. 6) connect the rj-11 cable between the usb adapter and the ev kit board. the gui software establishes communication automatically. 7) if the ic has not been confgured, run the confgura - tion wizard in the ev kit software to confgure op - eration for the desired application circuit and lithium cell type. confguration information is permanently saved inside the ic. detailed description of hardware the MAX17201/max17211 ev kit boards provide a vari - ety of features that highlight the functionality of the ics. the following sections detail the most important aspects of the kit boards. communication connections the rj-11 connector provides all signal lines necessary for i 2 c, smbus, 1-wire, or 1-wire overdrive communica - tion between the ic and the software gui interface. when developing code separately, connections to the commu - nication lines can be made directly to the board. table 1 summarizes the connections that should be made. the user must apply the appropriate external pullup resistors to the communication lines when not using the ds91230+ communication interface. external thermistors the MAX17201/max17211 can be confgured to use up to two external thermistors. all ev kit boards come with these thermistors installed as surface mount components rt1 and rt2. if the application requires direct thermal contact to the cells, rt1 and rt2 can be removed and replaced with leaded thermistors connected between the rt1+/rt1- and rt2+/rt2- solder pads. figure 1. MAX17201/max17211 board connections table 1. communication line solder points max 17201 / max 17211 j 5 bat - protector circuit cell charger/ load j 14 pack - rj - 11 pc j4 cellx j10 rt1- j11 rt1+ j12 rt2+ j13 rt2- j2 alrt1 j1 bat+ j6 pack+ j7 scl/od j8 sda/dq communication mode MAX17201 j7 MAX17201 j8 max17211 j7 max17211 j8 i 2 c scl sda n/a n/a 1-wire n/a n/a logic-low dq 1-wire overdrive n/a n/a logic-high dq www.maximintegrated.com evaluate: MAX17201/max17211 MAX17201g/MAX17201x/ max17211g/max17211x evaluation kits
maxim integrated 3 sense resistor options all ev kit boards are shipped with an 0805 size 0.010? chip sense resistor installed. oversized land pattern pads allow for different size sense resistors to be used if desired. also, each board contains an optional 0.003? copper trace sense resistor that can be enabled if desired. to do so, the chip sense resistor must be removed and 0? jumpers must be resoldered to change the circuit. table 2 summarizes the changes for each board type. note that the ic must be reconfgured to support the new resistor type. see the confguration wizard section for details. detailed description of software the MAX17201g/MAX17201x/max17211g/max17211x evaluation kit software gives the user complete control of all functions of the MAX17201/max17211, as well as the ability to load a custom model into the ics. it also comes with a sophisticated confguration wizard to allow user to easily adjust fuel gauge settings. separate control tabs allow the user access to view real-time updates of all monitored parameters. the software also incorporates a data-logging feature to monitor a cell over time. software installation the software requires windows 7 or newer operating system. .net version 4.5 is required for operation and is automatically installed if an older version of .net frame - work is detected. to install the evaluation software, exit all programs currently running and unzip the provided MAX17201_05_11_15k installation package zipped fle. double click the MAX17201_05_11_15k_v_x_x_x_x install.exe icon and the installation process begins. follow the prompts to complete the installa - tion. the evaluation software can be uninstalled in the add/remove programs tool in the control panel. after the installation is complete, open the maxim integrated/MAX17201_05_11_15k folder and run MAX17201_05_11_15k.exe or select it from the pro - gram menu. figure 2 shows a splash screen containing information about the evaluation kit that appears as the program is being loaded. communication port the ev kit software automatically fnds the ds91230+ adapter when connected to any usb port. communication status is shown on the right-hand side of the bottom sta - tus bar. see figure 3 . if the adapter cannot be found, a no usb adapter message is displayed. if the adapter is found, but the ic daughter board cannot be found, a no slave device message is displayed. otherwise, if com - munication is valid, a green bar updates as the software continuously reads the ic registers. if the ds91230+ is connected, the status bar should be active. the bottom status bar also displays information on data logging status, the communication mode, hiberna - tion status, selected current-sense resistor value, device serial number, and the evkit guis version number. table 2. sense resistor selection for MAX17201/max17211 figure 2. ev kit splash screen figure 3. ev kit bottom status bar component value for chip sense value for board trace sense r13 0? not populated r14 not populated 0? r15 desired sense value not populated r16 not populated 0? (r17 is trace resistor) www.maximintegrated.com evaluate: MAX17201/max17211 MAX17201g/MAX17201x/ max17211g/max17211x evaluation kits
maxim integrated 4 program tabs all functions of the program are divided under eight tabs in the main program window. click on the appropriate tab to move to the desired function page. located on the modelgauge m5 tab is the primary user information measured and calculated by the ic. the graphs tab visually displays fuel gauge register changes over time. the registers and sbs registers tabs allow the user to modify common fuel gauge registers one at a time. the commands tab allows for special operations such as changing communication mode, initiate fuel gauge log - ging and performing fuel gauge reset. the confguration tab displays the value of the nonvolatile registers as well as the remaining number of available writes. the authentication tab displays sha authentication-related information. the history tab allows the user to read out and save battery history information logged by the ic over its lifetime. all tabs are described in more detail in the fol - lowing sections. modelgauge m5 tab the modelgauge m5 tab displays the important output information read from the ic. figure 4 shows the format of the modelgauge m5 tab. information is grouped by function and each is detailed separately. state of charge the state of charge group box displays the main output information from the fuel gauge: state of charge of the cell, remaining capacity, time to full, and time to empty. cell information the cell information group box displays information related to the health of the cell such as the cells age, internal resistance, present capacity, number of equivalent full cycles, and change in capacity from when it was new. figure 4. modelgauge m5 tab www.maximintegrated.com evaluate: MAX17201/max17211 MAX17201g/MAX17201x/ max17211g/max17211x evaluation kits
maxim integrated 5 ic information the ic information group box displays information relat - ed to ic itself. this includes the ic part number, ic unique rom id, and ic frmware revision. measurements the measurements group box displays adc measure - ments that are used by the fuel gauge to determine state of charge. alerts the alerts group box tracks all eleven possible alert trigger conditions. if any alert occurs, the corresponding checkbox is checked for the user to see. the clear alerts button resets all alert fags. at rate the at rate group box allows user to input a hypo - thetical load current and the fuel gauge calculates the corresponding hypothetical qresidual, tte, avsoc, and avcap values. graphs tab the graphs tab displays up to 20 adc readings and fuel gauge outputs. figure 5 shows the format of the graphs tab. graph information is grouped into four categories: voltages, temperatures, capacities, and currents. the user can turn on or off any data series using the check boxes on the right-hand side of the tab. the graph visible viewing area can be adjusted from 10 minutes up to 1 week. the graphs remember up to 1 week worth of data. if the viewing area is smaller than the time range of the data already collected, the scroll bar below the graphs can be used to scroll through graph history. all graph history information is maintained by the program. graph settings can be changed at any time without losing data. figure 5. graphs tab www.maximintegrated.com evaluate: MAX17201/max17211 MAX17201g/MAX17201x/ max17211g/max17211x evaluation kits
maxim integrated 6 registers tab the registers tab allows the user access to all fuel gauge related registers of the ic. figure 6 shows the format of the registers tab. by using the two buttons on the left side of the tab, the user can sort the registers either by function or by their internal address. each line of data contains the register name, register address, hexadecimal representation of the data stored in the register, and if appli - cable a conversion to application units. to write a register location click on the button containing the register name. a pop-up window allows the user to enter a new value in either hexadecimal units or application units. the main read loop temporarily pauses while the register updates. figure 6. registers tab www.maximintegrated.com evaluate: MAX17201/max17211 MAX17201g/MAX17201x/ max17211g/max17211x evaluation kits
maxim integrated 7 sbs registers tab the sbs registers tab is visible only if sbs functions of the ic are enabled. the sbs registers tab has the same for - matting as the standard registers tab as shown in figure 7 . by using the two buttons on the left side of the tab, the user can sort the registers either by function or by their internal address. each line of data contains the register name, register address, hexadecimal representation of the data stored in the register, and if applicable a conversion to application units. to write a register location click on the button containing the register name. a pop-up window allows the user to enter a new value in either hexadecimal units or application units. the main read loop temporarily pauses while the register updates. figure 7. sbs registers tab www.maximintegrated.com evaluate: MAX17201/max17211 MAX17201g/MAX17201x/ max17211g/max17211x evaluation kits
maxim integrated 8 commands tab the commands tab allows the user to access any general ic functions not related to normal writing and reading of register locations. figure 8 shows the format of the commands tab. each group box of the commands tab is described in detail in the following sections. figure 8. commands tab www.maximintegrated.com evaluate: MAX17201/max17211 MAX17201g/MAX17201x/ max17211g/max17211x evaluation kits
maxim integrated 9 1-wire communication speed this option affects 1-wire ics only. the user can select either standard or overdrive communication speed. communication speed is controlled by the ev kit software by driving the od pin of the ic high or low. regardless of the desired communication rate, the kit software commu - nicates with any ic it discovers at either communication speed. the actual communication speed is displayed in the bottom status bar of the ev kit window. read/write register the user can read a single register location by entering the address in hex and clicking the read button. the user can write a single register location by entering the address and data in hex and clicking the write button. the read loop is temporarily paused each time to com - plete this action. log data to file data logging is always active when the kit software is started. the default data log storage location is the my documents/maxim integrated/MAX17201_205_211_215/ datalog.csv. the user can stop data logging by clicking the stop log button or change the data log fle name by clicking the change path button. whenever data logging is active, it is displayed on the bottom status bar of the ev kit window. all user available ic registers are logging in a .csv formatted fle. the user can adjust the logging inter - val at any time. the user can also enable or disable the event logging at any time. when event logging is enabled, the data log also stores any ic write or reads that are not part of the normal read data loop and indicates any time communication to the ic is lost. burn nonvolatile memory block clicking the burn nv block button sends the copy nv block command to the command register that causes all register locations from 180h to 1dfh to be stored to nonvolatile memory. nonvolatile memory has a limited number of copies and the user is prompted to confrm prior to executing the copy. reset ic clicking the full reset button sends the software por command to the command register and sets the por_ cmd bit of the confg2 register to fully reset operation the same as if the ic had been power cycled. note that resetting the ic when the cell is not relaxed causes fuel gauge error. lock register blocks clicking one of the fve lock buttons locks a page or pages of memory as listed to the right of each button. this is a permanent operation so the user is prompted to confrm the operation prior to setting the lock. confguration tab the confguration tab has similar formatting to the stan - dard registers tab as shown in figure 9 , but there are some major differences. when the user changes a register value on the confguration tab, only the ram value of that location is changed. the nonvolatile value remains unchanged. register text changes to blue to indicate the ram and nonvolatile values do not match. the user must complete a nonvolatile burn on the commands tab or run the confguration wizard to change the nonvolatile value. the nonvolatile memory has a limited number of updates that is shown in a box on the left-hand side of the tab. maxim recommends using the confguration wizard to make any changes to nonvolatile memory instead of changing registers manually. the wizard can be launched through the device drop-down menu at the top of the ev kit software window or by the button on the left-hand side of the confguration tab. see the confguration wizard section for details. note any register information that is displayed in red text indicates a nonvolatile burn error where the data read back after a burn does not match the expected value. www.maximintegrated.com evaluate: MAX17201/max17211 MAX17201g/MAX17201x/ max17211g/max17211x evaluation kits
maxim integrated 10 authentication tab the authentication tab allows the user to perform any action related to the sha 256 authentication feature of the ic. figure 10 shows the format of the authentication tab. each group box of the authentication tab is described in detail in the following sections. sha challenge/rom id enter values into the challenge registers directly or click the randomize challenge button to fll the challenge registers with a completely random value. the challenge value is not written to the ic until one of the compute mac buttons is clicked. the rom id is used in some sha calculations so it is displayed here for reference. sha secret enter the secret value here to allow software to verify the sha calculations of the ic. the ev kit software updates these values after a compute next secret command to what it believes the secret value should be. the secret value cannot be written directly or read from the ic. the secret value has a limited number of updates that are displayed in the changes remaining box. note that once the secret is locked or if the number of remaining updates reaches 0, it can no longer be changed. sha authentication results after a sha operation occurs, the output is displayed in the reported mac column. the ev kit software calcu - lates its own hash and displays the result in the expected mac column. if the results match, the operation is a suc - cess. if the results do not match, it is most likely because the secret inside the ic does not match the secret value entered into the ev kit software. figure 9. configuration tab www.maximintegrated.com evaluate: MAX17201/max17211 MAX17201g/MAX17201x/ max17211g/max17211x evaluation kits
maxim integrated 11 generate challenge/response pairs some applications use challenge-response pairs to con - frm battery pack authenticity instead of maintaining the secret on the host side. the ev kit software can generate a fle of any length of random challenge-response pairs for use by the application. ensure to have the correct secret entered before generating the pairs. history tab the history tab allows the user to see all battery history logging information stored inside the ic. when the ev kit software is loaded, this page is blank. history information is not automatically read from the ic. the user must click either the read battery history button to display history data or the read history and save to file button to store history data in a tab delimited .csv fle and then display the data. after history data has been read from the ic, it is displayed to the user starting with page 1. figure 11 shows the history tab format. each history page has a status of blank if it has not yet been written, written if it contains good history data, or skipped if the ic experienced a write error while storing the data. each history page contains 16 words of data. the user can click through each of the 203 history pages or enter a page number directly into the box to jump to a certain page. if a page has been written, all page data is displayed as hexadecimal values. some history information can be converted into application units. those locations contain one or two additional boxes of information showing the converted values. value boxes can display user data if that location has been confgured to store user data instead of history information or a.f. data if that location is being used for cycle+ age forecasting information. figure 10. authentication tab www.maximintegrated.com evaluate: MAX17201/max17211 MAX17201g/MAX17201x/ max17211g/max17211x evaluation kits
maxim integrated 12 the history information is also displayed in a graph on the left side of the tab. the graph displays data only from his - tory pages that have been written by the ic. click on the corresponding register name button to change the data shown by the graph. modelgauge m5 ez confguration before the ic accurately fuel gauges the battery pack, it must be confgured with characterization information. this can be accomplished two ways. the frst is through a custom characterization procedure that can be performed by maxim under certain condi - tions. the result is an .ini summary fle that contains information that can be programmed into the ic using the confguration wizard tool. contact maxim for details on this procedure. the second method is modelgauge m5 ez confguration. this is the default characterization information shipped inside every ic. this default model produces accurate results for most applications under most operating condi - tions. it is the recommended method for new designs as it bypasses the custom cell characterization procedure. some additional information is required from the user for ez confguration initialization. the confguration wizard tool handles this as well. figure 11. history tab www.maximintegrated.com evaluate: MAX17201/max17211 MAX17201g/MAX17201x/ max17211g/max17211x evaluation kits
maxim integrated 13 confguration wizard the ev kit software contains a fuel gauge confguration wizard that can be launched either on the confguration tab or from the device drop-down menu. the confguration wizard is the recommended way to change any nonvola - tile settings inside the ic. the wizard allows user to: open a custom ini file or generate a modelgauge m5 ez configuration. make any adjustments specific to the application. load the final configuration into the ic. export the generated configuration to a new ini file. the confguration wizard walks users through an 18 step process to confgure the ic. figure 12 shows the frst page of the wizard. each step is detailed below. the user can click the previous button in the bottom left corner of any page to return to any previous step if desired. once the last step is completed, the wizard closes, the ic is confgured, and a new ini fle is saved (if selected). step 1: starting the template choose between the existing nonvolatile memory data already inside the ic or revert back to the factory default values (modelgauge m5 ez). step 2: cell model selection choose between existing model already in the ics non - volatile memory, the modelgauge m5 ez model, or a custom model from an ini fle by using the select file button. note that modelgauge m5 ez is recommended if a custom model is not available. figure 12. configuration wizard steps 1 and 2 www.maximintegrated.com evaluate: MAX17201/max17211 MAX17201g/MAX17201x/ max17211g/max17211x evaluation kits
maxim integrated 14 step 3: general pack confguration select the confguration that most closely resembles the application circuit. the choice made in step 3 determines which options are available in step 4 as certain functions and adc channels are not available in certain pack con - fgurations. step 4: specifc pack confguration details select the number of series cells in the pack confgura - tion as well as which adc channels are used to measure pack voltages. if multicell inside protector confguration was selected in step 3, cell balancing is possible. the cell balancing threshold can be selected from the drop-down box. if the application has more than 15 cells in series, contact maxim about confguration options. step 5: shutdown mode select the checkbox if the user intends for the ic to enter shutdown mode any time the battery pack is removed from the application (communication lines low). step 6: sbs compliant functionality select the checkbox if user intends to use ic in smart battery system (sbs) compliant mode. if sbs mode is not used, these device registers are available for general-pur - pose data storage in step 16. if sbs mode is enabled, all sbs-related confguration settings can be adjusted here. step 7: sense resistor selection choose the value of the sense resistor to be used in the application. also, select the resistor temperature com - pensation. maxim recommends disabling temperature compensation when using a chip sense resistor. if using a pcb signal trace as the sense resistor, the default temper - ature coeffcient value of 0.4% per c is ideal for copper. step 8: current measurement calibration (optional) current measurement gain calibration is not required for proper operation of the fuel gauge. perform this operation calibration step only if the application requires it. to cali - brate current, frst force a known current of at least one half the full-scale value through the sense resistor and enter that value into the forced current text box. when the current register and avgcurrent register readings become stable, the auto calibrate button is enabled to allow calibration to occur. alternatively, the user can adjust gain manually by entering a value into the gain adjust text box. the default value for gain adjust is 1.000 or 100%. step 9: temperature measurement channels select which temperature measurements are used by the appli - cation. die temperature measurement is recommended for all applications. die temperature measurements are enabled by default if no other measurement channels are enabled.. step 10: temperature measurement details selections made in step 9 determine which options are available in this step. the user must select which tem - perature input is used by the fuel gauge. see the npack - cfg register defnition for details. if a thermistor channel is enabled then gain, offset, and curve scaling values must be used to convert the adc reading to temperature. if the application uses a common thermistor type found in the pulldown menu, select that thermistor and the scaling val - ues are automatically populated. if the application does not use one of these common thermistors, select other and enter the scaling values manually. step 11: alert confguration enable the desired alert conditions and then select the desired alert thresholds. note that the current related alert thresholds scale based on the sense resistor selection from step 7. step 12: overcurrent detection choose the over-discharge (od) and short-circuit (sc) detection settings for the application. each can be enabled independently of other alerts. the user then selects a threshold and delay setting. threshold values scale depending on the sense resistor selection from step 7. step 13: alrt pin polarity choose between active high and active low for the alrt pins polarity. alrt pin polarity is forced to active low if either od or sc comparators are enabled. step 14: cycle+ age forecasting enable age forecasting here and then choose the deadtargetratio and cyclestart for the age forecasting function. note that if age forecasting is enabled, the nvolt - temp and nsoc registers are used to store age forecast - ing information and are not available in step 15. step 15: battery life logging enable or disable any of the registers used for battery life logging. any unchecked registers not otherwise used by age forecasting are available for general-purpose data storage during step 16. the cycles per save box sets the rate at which cell history information is data logged by the ic. step 16: general-purpose data storage confguration choices in steps 1C15 determine which reg - isters are available for general-purpose data storage. the user can now enter any data they wish into any nongrey register location. www.maximintegrated.com evaluate: MAX17201/max17211 MAX17201g/MAX17201x/ max17211g/max17211x evaluation kits
maxim integrated 15 step 17: summary of changes after all desired nonvolatile confguration settings have been entered by the user, the table in step 17 shows a color-coded summary of how the nonvolatile memory settings are changed by the new confguration. note the confguration wizard automatically converts any mem - ory location that matches its alternate default value into general-purpose data storage. this can cause changes to the nnvcfg0 to nnvcfg2 registers not selected by the user, but does not affect ic operation. figure 13 shows an example of the confguration wizard summary table. step 18: update ic and save new confguration in the fnal step, the user is given options of how to use the new confguration. figure 14 shows step 18 of the confgu - ration wizard. option one is to discard all changes which has no effect on the ic. option two is to write confgura - tion shadow ram and then restart frmware so that those changes take effect. this allows the user to experience the new operation of the ic without using one of the limited nonvolatile copies. finally, option three writes the new con - fguration to the ic, burns the confguration into nonvolatile memory, and then restarts the ic so those changes take effect. this option is not available if the ic already used up all of the available confguration copies. additionally, the user can store the new confguration options into a new ini fle for easy programming of additional units. select the desired path name for the new ini fle. the confguration wizard completes once the user clicks the done button below step 18. the desired actions from step 18 occur after done is clicked and the wizard closes. click the window close button in the upper right corner of the wizard to exit at any time without performing any of the actions from step 18. figure 13. configuration wizard step 17 www.maximintegrated.com evaluate: MAX17201/max17211 MAX17201g/MAX17201x/ max17211g/max17211x evaluation kits
maxim integrated 16 figure 14. configuration wizard step 18 www.maximintegrated.com evaluate: MAX17201/max17211 MAX17201g/MAX17201x/ max17211g/max17211x evaluation kits
maxim integrated 17 note: indicate that you are using the MAX17201/max17205/max17211/max17215 when contacting these component suppliers. #denotes rohs compliant. component suppliers supplier phone website murata electronics north america, inc. 770-436-1300 www.murata.com/en-us tdk corp. 847-803-6100 www.component.tdk.com vishay 402-563-6866 www.vishay.com ordering information part type MAX17201gevkit# ev kit MAX17201xevkit# ev kit max17211gevkit# ev kit max17211xevkit# ev kit www.maximintegrated.com evaluate: MAX17201/max17211 MAX17201g/MAX17201x/ max17211g/max17211x evaluation kits
maxim integrated 18 MAX17201g/max17211g bill of materials part qty description c1 1 0.1uf 10%, 50v x7r ceramic capacitor (0402) c2 1 1000pf 10%, 50v x7r ceramic capacitor (0402), not populated c3 1 1000pf 10%, 50v x7r ceramic capacitor (0402) c4 1 0.47uf 10%, 25v x5r ceramic capacitor (0402) r1 1 10 1%, resistor (0402) r2 1 51.1k 1%, resistor (0402) r4, r5 2 1k 1%, resistor (0402) r6-r10 5 150 1%, resistor (0402) r11, r12 2 10k 1%, resistor (0402) r13 1 0 resistor (0402) r14 1 0 resistor (0402), not populated r15 1 0.010 1%, resistor (0805) r16 1 0 resistor (0805), not populated rt1, rt2 2 thermistor 10k ntc (0402) murata ncp15xh103f03 d2-d4 2 5.6v zener diode (sod323) j1-j2, j4-j8, j10-j14 12 plated through hole solder pad (16g wire) j9 1 rj-11,r/a,6-position/6-contacts j15 1 exposed copper trace jumper u1 1 MAX17201g/max17211g li+ fuel gauge ic 3x3 tdfn 14 pin 1 pcb: MAX17201evkit/max17211evkit 1 usb-to-rj11 board ds91230+ 1 rj11 6pos-6pos reverse modular cord 6ft. www.maximintegrated.com evaluate: MAX17201/max17211 MAX17201g/MAX17201x/ max17211g/max17211x evaluation kits
maxim integrated 19 note the schematic and layout are identical for the MAX17201g and max17211g ev kit boards. the only difference between boards is ic type and board name silkscreen. the MAX17201g is shown in the following figures. MAX17201g/max17211g schematics ���$���7�5�$�&�( ���$���7�5�$�&�( �
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maxim integrated 20 MAX17201g/max17211g pcb layout component placement top layout bottom layout www.maximintegrated.com evaluate: MAX17201/max17211 MAX17201g/MAX17201x/ max17211g/max17211x evaluation kits
maxim integrated 21 MAX17201x/max17211x bill of materials part qty description c1 1 0.1uf 10%, 50v x7r ceramic capacitor (0402) c2 1 1000pf 10%, 50v x7r ceramic capacitor (0402), not populated c3 1 1000pf 10%, 50v x7r ceramic capacitor (0402) c4 1 0.47uf 10%, 25v x5r ceramic capacitor (0402) r1 1 10 1%, resistor (0402) r2 1 51.1k 1%, resistor (0402) r4, r5 2 1k 1%, resistor (0402) r6-r10 5 150 1%, resistor (0402) r11, r12 2 10k 1%, resistor (0402) r13 1 0 resistor (0402) r14 1 0 resistor (0402), not populated r15 1 0.010 1%, resistor (0805) r16 1 0 resistor (0805), not populated rt1, rt2 2 thermistor 10k ntc (0402) murata ncp15xh103f03 d2-d4 2 5.6v zener diode (sod323) j1-j2, j4-j8, j10-j14 12 plated through hole solder pad (16g wire) j9 1 rj-11,r/a,6-position/6-contacts j15 1 exposed copper trace jumper u1 1 MAX17201x/max17211x li+ fuel gauge wlp 15 pin 1 pcb: MAX17201xevkit/max17211xevkit 1 usb-to-rj11 board ds91230+ 1 rj11 6pos-6pos reverse modular cord 6ft. www.maximintegrated.com evaluate: MAX17201/max17211 MAX17201g/MAX17201x/ max17211g/max17211x evaluation kits
maxim integrated 22 note the schematic and layout are identical for the MAX17201x and max17211x ev kit boards. the only difference between boards is ic type and board name silkscreen. the MAX17201x is shown in the following figures. MAX17201x/max17211x schematics �����$���7�5�$�&�( �
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�3�$�&�.�� �%�$�7�� �5�7���� �5�7���� ���� ���� �6�&�/���2�' ���� ���� ���� ���� �5�7���� �����. ������ ���������3�) �'�� �'�� �&�� �5�� �5�� �8�� �5�� �5�� �-�� �-���� �-���� �-���� �5���� �-���� �-���� �-�� �-�� �-�� �-�� �-�� �-�� �5�7�� �5�7�� �&�� �&�� �5���� �5���� �5���� �5���� �5���� �5�� �5�� �5�� �5���� �5���� �'�� �5�� �-�� �$�3�8 �$�3�8 �2�'���6�&�/ �6�,�*�b�� �5�7���� �5�7���� �6�,�*�b�� �2�'���6�&�/ �5�7���� �$ �& �$ �& �%�� �%�� �&�� �� �%�� �&�� �$ �$�� �$�� �&�� �$�� �$�� �%�� �&�� �%�� �&�� �$�� �� �� �� �� �� ���� �� �� �& �,�1 �,�1 �$�/�5�7�� �*�1�' �7�+�5�0 �&�(�/�/�; �'�4���6�'�$ �2�'���6�&�/ �$�,�1�� �$�,�1�� �&�(�/�/�� �&�(�/�/�� �9�%�$�7�7 �&�6�1 �5�(�*�� �&�6�3 �5�(�*�� �,�1 �,�1 �,�1 �,�1 �,�1 �,�1 �,�1 �� �� �� �� �� �� �3�5�2�-�(�&�7���7�,�7�/�(�� �'�5�$�:�,�1�*���7�,�7�/�(�� �6�,�=�( �+�$�5�'�:�$�5�(���1�8�0�% �( �(�1�*�,�1�(�(�5�� �% �% www.maximintegrated.com evaluate: MAX17201/max17211 MAX17201g/MAX17201x/ max17211g/max17211x evaluation kits
maxim integrated 23 MAX17201x/max17211x pcb layout component placement top layout bottom layout www.maximintegrated.com evaluate: MAX17201/max17211 MAX17201g/MAX17201x/ max17211g/max17211x evaluation kits
? 2016 maxim integrated products, inc. 24 revision history revision number revision date description pages changed 0 3/16 initial release 1 4/16 removed max17205/max17215 from ev kit 1C24 maxim integrated cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a maxim integrated product. no circuit patent licenses are implied. maxim integrated reserves the right to change the circuitry and specifcations without notice at any time. maxim integrated and the maxim integrated logo are trademarks of maxim integrated products, inc. evaluate: MAX17201/max17211 MAX17201g/MAX17201x/ max17211g/max17211x evaluation kits for pricing, delivery, and ordering information, please contact maxim direct at 1-888-629-4642, or visit maxim integrateds website at www.maximintegrated.com.
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