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MAX19516EVKIT+

MAX19516EVKIT+

  • 厂商:

    AD(亚德诺)

  • 封装:

    -

  • 描述:

    KIT EVAL FOR MAX19516 ADC

  • 数据手册
  • 价格&库存
MAX19516EVKIT+ 数据手册
Click here for production status of specific part numbers. Evaluate: MAX19505–MAX19507/ MAX19515–MAX19517 MAX19505–MAX19507/ MAX19515–MAX19517 Evaluation Kits General Description The MAX19505–MAX19507/MAX19515–MAX19517 evaluation kits (EV kits) are fully assembled and tested circuit boards that contain all the components necessary to evaluate the performance of this family of 8-bit and 10-bit analog-to-digital converters (ADCs). The EV kits also include Windows® 7/10-compatible software that provides a simple graphical user interface (GUI) for exercising the programmable features of the MAX19505/ MAX19507/MAX19515–MAX19517. The MAX19505–MAX19507/MAX19515–MAX19517 EV kits accept a single-ended analog input from an analog signal source. The EV kits provide an on-board circuit that transforms this analog single-ended signal into a differential signal. The ADC digital output can be captured easily with a basic logic analyzer. The EV kits can operate from a single 3.6V nominal power supply and provide on-board regulation for the analog, clock, digital, and logic circuitry. Part Selection Table PART RESOLUTION (Bits) SPEED (Msps) MAX19505ETM+ 8 65 MAX19506ETM+ 8 100 MAX19507ETM+ 8 130 MAX19515ETM+ 10 65 MAX19516ETM+ 10 100 MAX19517ETM+ 10 130 Features ●● Single Power-Supply Operation ●● Low-Voltage and Low-Power Operation ●● On-Board Single-Ended to Differential Transformer Circuitry ●● Differential or Single-Ended Clock Configuration ●● On-Board Clock-Shaping Circuit with Adjustable Duty Cycle ●● On-Board SPI™ Interface Circuit ●● User-Selectable Supply Voltages ●● Lead(Pb)-Free and RoHS Compliant ●● Fully Assembled and Tested Ordering Information PART TYPE MAX19505EVKIT+ EV Kit MAX19506EVKIT+ EV Kit MAX19507EVKIT+ EV Kit MAX19515EVKIT+ EV Kit MAX19516EVKIT+ EV Kit MAX19517EVKIT+ EV Kit +Denotes lead(Pb)-free and RoHS compliant. Component List REF DES QTY DESCRIPTION REF DES QTY C1, C40 2 4.7µF Tantalum Capacitor SMT (3528), 16V, 20% C2, C27, C28, C76, C77 5 10µF Ceramic Capacitor; SMT (0805), 6.3V, 20%, X5R C3 1 C4, C5 2 C6, C7, C29, C48-C53, C66-C73 17 0.1µF Ceramic Capacitor SMT (0402), 10V; 10%; X5R C25, C26 2 0.1µF Ceramic Capacitor SMT (0603), 50V, 10%, X7R 1µF Ceramic Capacitor SMT (0402), 6.3V; TOL = 10%, X5R C30, C31 2 100pF Ceramic Capacitor SMT (0402), 50V, 5%, C0G 8pF Ceramic Capacitor SMT (0402), TOL = ±0.25pF C43, C79, C81-C89 11 0.1µF Ceramic Capacitor SMT (0402), 10V, 10%, X7R Windows 7, and Windows 10 are registered trademarks of Microsoft Corp. SPI is a trademark of Motorola, Inc. 19-4301; Rev 2; 7/19 DESCRIPTION MAX19505–MAX19507/ MAX19515–MAX19517 Evaluation Kits Evaluate: MAX19505–MAX19507/ MAX19515–MAX19517 Component List (continued) REF DES QTY DESCRIPTION C54, C55, C75, C78 4 0.01µF Ceramic Capacitor SMT (0603), 25V, 10% C80 1 3.3µF Ceramic Capacitor SMT (0402), 6.3V, 20%, X5R CLK, SYNC, VINA, VINB 4 D2 REF DES QTY DESCRIPTION R81 1 1kΩ Resistor (0603), 5%, 0.10W R82 1 12kΩ Resistor (0603), 1%, 0.10W S1 1 Surface Mount Tactile Switch, SMT T1-T4 4 0.4-800MHz Transformer, SMT SMA Connector, 5 Pins T5 1 1 Schottky Diode, PIV = 70V, PD = 0.25W 0.20MHz TO 400MHz, Transformer, SMT TP1, TP2 2 Orange Test Point DS1-DS4 4 Green LED SMT (0603) TP3 1 Black Test Point GND, VSUPPLY 2 Banana Connector U1 1 ADC, Dual-Channel, 10-BIT, 130Msps, TQFN 48-EP J1, J8-J10, JU6, JU7, JU9, JU10 8 2 Pin Header U2 1 Ultra-Low-Noise, High PSRR, Low-Dropout, Linear Regulator J5 1 48 Pin Header U3 1 J6 1 USB MINI B-TYPE SMT Connector, Right Angle, 9 PINS Usb, Quad High Speed USB to Multipurpose UART/MPSSE IC, LQFP 64 12X12 U4 1 4-Bit Dual-Supply Bus Transceiver With Configurable Voltage Translation And 3-State Output, TSSOP 16 U9 1 EEPROM, 2K, 16-BIT MICROWIRE Compatible Serial EEPROM, NSOIC8 150MIL U10 1 TINYLOGIC, ULP-AS Dual Inverter, SC70-6 U11, U12 2 16-BIT Buffer/Driver with 3-State Outputs, TSSOP 48 U14, U15 2 LOW-NOISE LDO regulator PIN-Selectable Output Voltage. TDFN8 2X2 USB3V3 1 Red Test Point Y1 1 Crystal, SMT, 18pF, 12MHz J7 1 10 Pin Header JU1-JU3 3 4 Pin Header L1, L2 2 28 Ferrite-Bead Inductor SMT (0603), 25%; 4A 4 5/8IN Round-Thru Hole Spacer; No Thread; M3.5; Nylon R1, R3-R12, R45, R58-R63, R70-R75 24 47 Resistor SMT (0402), 5%, 0.1W R2, R43, R44 3 100kΩ Resistor (0603), 5%; 0.1W R19-R22 4 75Ω Resistor (0603), 0.1%, 0.10W R23-R26 4 121Ω Resistor (0603), 0.1%, 0.10W R27-R41, R47-R49 18 0Ω Resistor; 0402, 0%, 0.10W R42, R54, R55 3 49.9Ω Resistor (0603), 1%, 0.10W R46 1 10kΩ Resistor, 10%, 0.5W PCB 1 PCB: MAX19517 R56, R57, R65 3 100Ω Resistor (0603), 1%, 0.10W J2-J4 0 Not Installed, 2 Pin Header R64 1 0Ω Resistor (0603), 5%, 0.10W R66-R68, R83-R85 0 Not Installed, (0603) Resistor 6 10kΩ Resistor (0603), 5%, 0.10W R13-R18, R50, R52, R53 C32-C35 0 R69 1 2.2kΩ Resistor (0603), 2.2kΩ, 5%, 0.10W Not Installed, (0402) Non-Polar Capacitor R76-R78 3 R51 0 Not Installed, (0402) Resistor 75Ω Resistor (0603), 1%, 0.10W MH1-MH4 www.maximintegrated.com Maxim Integrated │  2 Evaluate: MAX19505–MAX19507/ MAX19515–MAX19517 MAX19505–MAX19507/ MAX19515–MAX19517 Evaluation Kits EV Kit-Specific Component List PART DESIGNATION DESCRIPTION MAX19505EVKIT+ 8-bit 65Msps dual ADC (48 TQFN) Maxim MAX19505ETM+ MAX19506EVKIT+ 8-bit 100Msps dual ADC (48 TQFN) Maxim MAX19506ETM+ MAX19507EVKIT+ 8-bit 130Msps dual ADC (48 TQFN) Maxim MAX19507ETM+ U1 MAX19515EVKIT+ 10-bit 65Msps dual ADC (48 TQFN) Maxim MAX19515ETM+ MAX19516EVKIT+ 10-bit 100Msps dual ADC (48 TQFN) Maxim MAX19516ETM+ MAX19517EVKIT+ 10-bit 130Msps dual ADC (48 TQFN) Maxim MAX19517ETM+ Component Suppliers SUPPLIER PHONE WEBSITE Central Semiconductor Corp. 631-435-1110 www.centralsemi.com Coilcraft, Inc. 847-639-6400 www.coilcraft.com Diodes, Inc. 805-446-4800 www.diodes.com Fairchild Semiconductor 888-522-5372 www.fairchildsemi.com Future Technology Devices International Ltd. — www.ftdichip.com IRC, Inc. 361-992-7900 www.irctt.com Mini-Circuits 718-934-4500 www.minicircuits.com Murata Electronics North America, Inc. 770-436-1300 www.murata-northamerica.com Panasonic Corp. 800-344-2112 www.panasonic.com Link Instruments 973-808-8990 www.linkinstruments.com Susumu International USA 208-328-0307 www.susumu-usa.com Taiyo Yuden 800-348-2496 www.t-yuden.com TDK Corp. 847-803-6100 www.component.tdk.com Texas Instruments Inc. 972-644-5580 www.ti.com Note: Indicate that you are using the MAX19505, MAX19506, MAX19507, MAX19515, MAX19516, or MAX19517 when contacting these component suppliers. www.maximintegrated.com Maxim Integrated │  3 Evaluate: MAX19505–MAX19507/ MAX19515–MAX19517 MAX19505–MAX19507/ MAX19515–MAX19517 Evaluation Kits MAX19505–MAX19507/ MAX19515–MAX19517 EV Kit Files FILE DESCRIPTION MAX195xxDualADCEVKit SoftwareInstaller.exe Installs the EV kit files on your computer MAX195xxGUI.exe Application program ftd2xx.dll Supporting Library MaximStyle.dll Supporting Library libMPSSE.dll Supporting Library FTD2XX_NET.dll Supporting Library unins000.exe Uninstalls the EV kit software Quick Start Recommended Equipment ●● Single nominal 3.6V, 1A DC power supply ●● Signal generator with low phase noise and low jitter for clock input (e.g., HP 8644B) ●● Signal generator for analog signal input (e.g., HP 8644B) ●● Logic analyzer (recommended, IO3232A) ●● Analog bandpass filters (e.g., K&L Microwave) for input and clock signal ●● User-supplied Windows 7/10 PC with two spare USB ports Note: In the following sections, software-related items are identified by bolding. Text in bold refers to items from the EV kit software. Text in bold and underlined refers to items from the Windows operating system. Procedure The MAX19505–MAX19507/MAX19515–MAX19517 EV kits are fully assembled and tested surface-mount boards. Follow the steps below to verify board operation. Caution: Do not turn on power supplies or enable signal generators until all connections are completed. 1) Verify that shunts are installed across pins 1-3 of jumpers JU1, JU2, and JU3 (SPI connected). 2) Verify that no shunts are installed across jumpers JU6 (device enabled) and JU7 (SPI enabled). 3) Verify that shunts are installed across jumpers JU9 (AVDD connected) and JU10 (OVDD connected). 4) Verify that shunt is installed across jumper J1, and no jumper is installed across J8 (AVDD = 1.8V). www.maximintegrated.com 5) Verify that shunt is installed across jumper J8, and no jumper is installed across J10 (OVDD = 1.8V). 6) Connect the clock generator output to the clock bandpass filter input. 7) Connect the output of the clock bandpass filter to the CLK SMA connector. 8) Connect the output of the analog signal generator to the input of the signal bandpass filter. Keep the cable connection between the signal generators, filters, and EV kit board as short as possible for optimum dynamic performance. 9) Connect the output of the signal bandpass filter to the VINA SMA connector. Note: It is recommended that a 3dB or 6dB attenuation pad be used to reduce reflections and distortion from the bandpass filter. 10) If using IO3200, apply power to the IO3232A by connecting the USB cable from the computer’s typeA USB port to the IO3232A module’s mini-USB port. 11) Connect the MAX195xx J5 header pins to the logic analyzer (See Connecting the IO3232A to the EV Kit below, if applicable). 12) Connect the power supply to VSUPPLY. Connect the ground terminal of this supply to the corresponding GND pad. 13) Connect the USB cable from the computer’s type-A USB port to the EV kit board’s Mini USB port. 14) Visit www.maximintegrated.com and search for the device EV Kit to download the latest version of the MAX195xx EV kit software and install it on your computer by running the INSTALL.EXE program. The program files are copied and icons are created in the Windows Start menu. 15) Start the MAX195xx program by opening its icon in the Start menu. 16) Turn on the 5V power supply. 17) Enable the signal generators. 18) Set the clock signal generator for an output amplitude of 2VP-P or higher (recommended +16dBm to +19dBm for optimum AC performance for input frequencies > 100MHz) and the frequency (fCLK) as appropriate. 19) Set the analog input signal generators for an output amplitude of less than or equal to 2VP-P and to the desired frequency. 20) Verify that the two signal generators are phase locked to each other. Adjust the output power level of the signal generators to overcome cable, bandpass filter, and attenuation pad losses at the input. 21) Collect data using the logic analyzer. Maxim Integrated │  4 MAX19505–MAX19507/ MAX19515–MAX19517 Evaluation Kits Detailed Description of Software Updating Registers To send the new register values to the device through the SPI interface, click the Update Registers button after the settings are changed. Application Menu This menu contains 3 options, File, Device and Help. These options allow the user to Exit the program, choose their MAX195xx device, and view the splash screen, respectively. The user should select a device upon startup, as this will adjust the Output Timing Controls to the device’s default settings. Evaluate: MAX19505–MAX19507/ MAX19515–MAX19517 User-Interface Panel The program’s main window contains two tabs, Input/ Output/Clock (Figure 1) and Power Management (Figure 2), that provide controls for the MAX195xx softwareconfigurable features. The Input/Output/Clock tab provides controls for Output Format, Input Common Mode, Output CMOS Termination, Output Timing Control, and Clock Controls. The Power Management tab provides controls for Power Management and Output Driver Power Mgmt. Controls. Changes to the controls result in a write operation that updates the appropriate registers of the ADC. A status bar is also provided at the bottom of the program’s main window and is used to verify command module and device connectivity. For reference, a list of registers and their content is provided in a column on the right side of the program’s main window. Figure 1. MAX195xx EV Kit Software (Input/Output/Clock Tab) www.maximintegrated.com Maxim Integrated │  5 MAX19505–MAX19507/ MAX19515–MAX19517 Evaluation Kits Evaluate: MAX19505–MAX19507/ MAX19515–MAX19517 Figure 2. MAX195xx EV Kit Software (Power Management Tab) Input/Output/Clock Tab Output Format The Output Format group box contains several functions that format the output data. The option to select between single or dual data channels or set the multiplexer between channels A or B is available through proper selection of the radio buttons in the Data Channel Mode and Mux Ch. Select group boxes. The CHA Reverse and CHB Reverse checkboxes in the Reverse Bit Order group box allow the user to reverse the bit order of channels A and B, respectively. The Format drop-down list in the Data group box configures the output data to two’s complement, offset binary, or gray code. The Test Data drop-down list in the Data Test Pattern group box gives the user the option to choose between normal and test data modes. When Test Data mode is selected, the Test Pattern drop-down list www.maximintegrated.com becomes active. The Test Pattern drop-down list allows the user to choose between ramping or alternating test pattern data. Input Common Mode The CHA Adjust and CHB Adjust drop-down lists set the input common-mode voltage according to the value selected. The CHA Self-Bias and CHB Self-Bias checkboxes apply common-mode voltages to input pins when checked, and disable common-mode inputs when unchecked. Output CMOS Termination The Output CMOS Termination group box contains independent controls to set the CMOS back termination of CHA Data and CHB Data and CHA DCLK and CHB DCLK. The CHA Data and CHB Data drop-down lists set the data termination, while the CHA DCLK and CHB DCLK drop-down lists sets the DCLK termination. Maxim Integrated │  6 MAX19505–MAX19507/ MAX19515–MAX19517 Evaluation Kits Output Timing Control The Output Timing Control group box contains controls to make adjustments to data and DCLK timing. The Data Timing Adjust drop-down list adjusts DATA timing by the selected value. The DCLK Timing Adjust drop-down list adjusts DCLK timing by the selected value. By checking the Delay DATA/DCLK by T/2 checkbox, DATA and DCLK outputs are delayed by a factor of T/2. The Data Aligner Bypass checkbox bypasses the data aligner delay line when checked. For more details on output timing control, refer to the respective IC data sheet. Clock Controls The Clock Controls group box contains controls for manipulating the clock. The Divider drop-down list sets the clock divider. The Sync Mode drop-down list sets clock synchronization to either slip or edge mode. In slip mode, the divided output is forced to skip a state transition on the third rising edge of the input clock (CLK) after the rising edge of SYNC. In edge mode, the divided output is forced to state 0 on the third rising edge of CLK. The 100 Ohm Input Term. checkbox switches 100Ω across differential clock inputs when checked. For more details on clock synchronization and control, refer to the respective IC data sheet. Power Management Tab Power Management Controls The Power Management group box contains two sets of controls. The first set is used only when the SHDN pin on the EV kit is set low; the second set is used only when the SHDN pin on the EV kit is set high. When checked, the CHA Active and CHB Active checkboxes activate channel A and channel B, respectively, and power down/ standby channel A and channel B when unchecked. The Standby checkbox toggles between standby mode when checked and full power-down mode when unchecked, as long as CHA Active or CHB Active checkboxes are unchecked. The A+B Adder mode checkbox toggles between A+B adder mode when checked and normal dual mode when unchecked. For more details on power management, refer to the respective IC data sheet. Output Driver Power Management Controls The Output Driver Power Mgmt. Controls group box contains controls to disable the digital clock (DCLK) and out-of-range indicator (DOR). The Disable DCLK checkbox disables the DCLK when checked and the Disable www.maximintegrated.com Evaluate: MAX19505–MAX19507/ MAX19515–MAX19517 DOR checkbox disables DOR. Note: Disable DCLK and disable DOR applies to CMOS modes only. The Power Down Output State drop-down list sets the digital output high, low, or to tri-state during power-down. For more details on output driver power management control, refer to the respective IC data sheet. User Log The User Log is in each tab. The User Log keeps track of all settings when the Update Registers button is pressed. When the user switches tabs, the contents are updated between both tabs. The User Log can also be used to take notes, and hitting the Copy Log button will copy the log to the clipboard. Detailed Description of Hardware The MAX19505–MAX19507/MAX19515–MAX19517 evaluation kits (EV kits) are fully assembled and tested circuit boards that contain all the components necessary to evaluate the performance of this family of 8-bit and 10-bit analog-to-digital converters (ADCs). The ADCs accept differential input signals; however, on-board transformers (T1–T4) convert a readily available single-ended source output to the required differential signal. The input signals of the ADCs can be measured using a differential oscilloscope probe at headers J2 and J3. Output drivers (U11 and U12) buffer the output signals of the data converter. The digital outputs of each EV kit are accessible at header J5. Each EV kit is designed as a four-layer PCB to optimize the performance of this family of ADCs. Separate analog, digital, clock, and buffer power planes minimize noise coupling between analog and digital signals. The 100Ω differential microstrip transmission lines are used for analog and clock inputs. The 50Ω microstrip transmission lines are used for all digital outputs. The trace lengths of the 100Ω differential input lines are matched to within a few thousandths of an inch to minimize layout-dependent input-signal skew. Using the IO3232A with the EV Kit The Logic Analyzer Pattern Generator (IO3200) is one of the many instrument options to evaluate the performance of this specific family of evaluation kits. While it is simple enough to use, this method does require the user to download the IO3200 software from the following link: www.linkinstruments.com Maxim Integrated │  7 Evaluate: MAX19505–MAX19507/ MAX19515–MAX19517 MAX19505–MAX19507/ MAX19515–MAX19517 Evaluation Kits Connecting the IO3232A to the EV Kit The IO3232A can be connected to the MAX195xx boards using the following pin ordering. It is not essential to match the pins exactly as specified below, as they are a recommended connection sequence. Configuring the EV Kits for Single-Ended Clock Operation To configure the MAX195xx EV kits for single-ended clock operation, the following modifications must be made to the clock circuit: 1) Remove 0Ω resistors at locations R47, R48, and R49. Power Supplies The MAX195xx EV kits operate from a single DC power supply (VSUPPLY) and provide on-board regulation to power the analog, digital, and clock-shaping circuit blocks. The nominal voltage input for the VSUPPLY is at 3.6V. The maximum voltage supported by the MAX195xx EV kits is 5V, and the minimum voltages are represented in Table 1 and Table 2 based on the user’s desired regulated voltage. The analog and clock (AVDD) are regulated to a desired voltage (1.8V, 2.5V, 3.0V, or 3.3V) through the MAX8902A (U14), a pin-selectable linear regulator. The digital output and logic circuitry (OVDD and VLOGIC) are both regulated to a desired voltage (1.8V, 2.5V, 3.0V, or 3.3V) through the MAX8902A (U15). J1, J8, J9, and J10 are provided to select the desired output of U14 and U15. See Table 2 and Table 3 for AVDD and OVDD/VLOGIC supply options. Jumpers JU9 and JU10 are provided to either disconnect or measure current through AVDD and OVDD, respectively. 2) Install 0Ω resistors at locations R51 and R52. 3) Install a 49.9Ω ±1% resistor at location R50. In single-ended clock configuration, potentiometer R46 can be utilized to control the duty cycle of the clock input signal. Measure the clock input at J4 and adjust R46 until the desired duty cycle is achieved. Input Signal Although this family of ADCs accepts differential analog input signals, the EV kits only require single-ended analog input signals. Insertion losses due to a series-connected filter and the interconnecting cables decrease the amount of power seen at the EV kit input. Account for these losses when setting the signal generator amplitude. On-board transformers (T1–T4) convert the single-ended analog input signals and generate the recommended differential analog signals at the ADCs’ differential input pins. The input circuit supports input frequencies from 1MHz to 400MHz. Clock Input The data converter allows for either differential or singleended signals to drive the clock inputs. The MAX195xx EV kits support both methods. In single-ended operation, the clock signal is applied to the ADC through a buffer (U10). In differential mode, an on-board transformer converts a user-supplied singleended analog input and generates a differential analog signal, which is then applied to the ADC’s input pins. Table 1. J5 Header and IO3232A Pin Relationships J5 HEADER FROM EV KIT DCLKA IO3232A PINS Ext. clk0 (interchangeable with DCLKB) Table 2. MAX8902A Output Voltage for AVDD (J1 and J9) J1 J9 AVDD VSUPPLY MIN OPEN INSTALL 1.8V* 2.1V OPEN OPEN 2.5V 2.8V INSTALL INSTALL 3.0V 3.3V INSTALL OPEN 3.3V 3.6V *Default Table 3. MAX8902A Output Voltage for OVDD and VLOGIC (J8 and J10) J8 J10 OVDD/VLOGIC VSUPPLY MIN DORA PIN 10 D9A:D0A PINS 9:0, respectively OPEN INSTALL 1.8V* 2.1V D9B:D0B PINS 25:16, respectively OPEN OPEN 2.5V 2.8V DORB PIN 26 INSTALL INSTALL 3.0V 3.3V DCLKB Ext. clk0 (interchangeable with DCLKA) INSTALL OPEN 3.3V 3.6V www.maximintegrated.com *Default Maxim Integrated │  8 Evaluate: MAX19505–MAX19507/ MAX19515–MAX19517 MAX19505–MAX19507/ MAX19515–MAX19517 Evaluation Kits Output Signal The MAX19505, MAX19506, and MAX19507 feature two 8-bit, parallel, CMOS-compatible digital outputs that transmit the converted analog input signals. The higher resolution MAX19515, MAX19516, and MAX19517 feature two 10-bit, parallel, CMOS-compatible digital outputs that transmit the converted analog input signals. Each set of 8-bit or 10-bit digital outputs also includes a clock bit (DCLKA/B) and overrange bit (DORA/B) to accommodate data synchronization and error detection. See the Output Bit Locations section for more details on how to configure these 8-bit and 10-bit converter outputs. Output Bit Locations Two drivers (U11 and U12) buffer the digital outputs of the individual ADCs. These drivers are able to drive large capacitive loads, which may be present at the logic analyzer connection. The outputs of the buffers are connected to J5. Serial Port Enable (SPEN) The SPEN pin selects the means of programming the internal registers of the MAX19505–MAX19507/ MAX19515–MAX19517 ADCs. SPEN is set high or low based on the settings of jumper JU7, shown in Table 4. When a shunt on JU7 is installed, the 3-wire serial port is disabled and the part can be programmed through jumpers JU1, JU2, and JU3 in parallel mode. When JU7 is left open, SPEN is pulled to GND through R44. Refer to the Table 4. Jumper JU7 Functions respective IC data sheet for more information on SPEN and parallel programming. Note that when the serial port is enabled, jumpers JU1, JU2, and JU3 must be set to pins 1-3 for proper operation. Shutdown (SHDN) The MAX19505–MAX19507/MAX19515–MAX19517 ADCs can also be placed in a low-power shutdown mode through jumper JU6. This pin has different effects depending on the state of SPEN. When in SPI programming mode, SHDN can select between two powermanagement states. When in parallel programming mode, SHDN can enable/disable the IC. When SPI programming is enabled (SPEN = 0), the SHDN pin is a toggle switch between two power-management states, shown in Figure 2 under the Power Management group box of the software interface. When a shunt is installed on JU6, SHDN is connected to AVDD and the user can select the appropriate settings for CHA Active, CHB Active, Standby, and A+B Adder mode under the label **Use when SHDN = 1 (IC pin 7)**. When no shunt is installed on JU6, SHDN is connected to GND through R43 and the user can select the appropriate settings for CHA Active, CHB Active, Standby, and A+B Adder mode under the label **Use when SHDN = 0 (IC pin 7)**. When parallel programming mode is enabled (SPEN = 1), the SHDN pin enables/disables the IC according to the settings in Table 5. SHUNT POSITION SPEN PIN Installed Connected to AVDD Not installed* Connected to GND though a 100kΩ pulldown resistor 3-WIRE SERIAL PORT Disabled (parallel programming mode) Enabled (SPI programming) *Default position. Table 5. Jumper JU6 Functions (SPEN = AVDD) SHUNT POSITION SHDN PIN Installed Connected to AVDD Not installed* Connected to GND through a 100kΩ pulldown resistor POWER STATE (SPEN = AVDD) Complete power-down CHA + CHB active *Default position. www.maximintegrated.com Maxim Integrated │  9 Evaluate: MAX19505–MAX19507/ MAX19515–MAX19517 MAX19505–MAX19507/ MAX19515–MAX19517 Evaluation Kits Parallel Programming Limited feature selection is available as an alternative to full programmability through the serial port. If the serial port is disabled by setting the SPEN pin high, the serial port pins (CS, SCLK, SDIN) become feature selection pins (OUTSEL, DIV, FORMAT) that require an analog control network. Jumpers JU1, JU2, JU3, and JU7 control the feature selection when the serial port is disabled (parallel programming is enabled). See Table 6 for functionality. Table 6. Parallel Programming Feature Selection SCLK/DIV (JU1) SDIN/FORMAT (JU2) CS/OUTSEL (JU3) SPEN (JU7) SCLK SDIN CS 0 Serial port active. Features are programmed through the serial port. X 0 X 1 Two’s complement X VDD X 1 Offset binary X (Unconnected pin) X 1 Gray code 0 X X 1 Clock divide-by-1 VDD X X 1 Clock divide-by-2 (Unconnected pin) X X 1 Clock divide-by-4 X X 0 1 CMOS (dual bus) X X VDD 1 MUX CMOS (channel A data bus) X X (Unconnected pin) 1 MUX CMOS (channel B data bus) DESCRIPTION X = Don’t care. www.maximintegrated.com Maxim Integrated │  10 1 1 VINB 142-0701-201 2 4 3 5 2 4 3 5 OPEN R16 C26 0.1UF OPEN R13 3 1 3 1 S S OPEN R18 ADT1-1WT+ T3 P R17 OPEN OPEN R15 ADT1-1WT+ T1 P 6 2 4 6 2 4 R22 75 R21 75 R20 75 R19 75 0 R41 0 R40 3 1 3 1 S S ADT1-1WT+ T4 P ADT1-1WT+ T2 P 6 2 4 6 2 4 R25 121 R26 121 R24 121 R23 121 0 R31 0 R27 C31 100PF TP2 C30 100PF TP1 0 R34 0 R32 0 R33 0 R30 0 R28 0 R29 VCMB J3 VCMA J2 R38 0 OPEN C35 R37 0 OPEN C34 R36 0 OPEN C33 R35 0 OPEN C32 2 AVDD 2 AVDD JU7 JU6 1 SYNC 142-0701-201 R44 100K 1 R43 100K 1 GND REFIO 0 R39 R42 49.9 C29 0.1UF CLKN CLKP INB- VCMB INB+ INA- VCMA INA+ 5 7 SPEN SHDN REFIO CLK- 6 CLK+ 16 SYNC 15 14 INB- CMB 11 10 INB+ 9 INA- CMA 2 4 INA+ 3 1 AVDD 12 AVDD U1 MAX19507ETM+ 46 45 44 43 42 41 40 39 38 37 35 34 20 19 31 30 29 28 27 26 24 23 DCLKA DORA D7A D6A D5A D4A D3A D2A D1A D0A DCLKB DORB D7B D6B D5B D4B D3B D2B D1B D0B GND 17 47 GND 18 SCLK/DIV EP CS/OUTSEL 36 OVDD I.C. 49 SDIN/FORMAT 25 OVDD I.C. 8 13 AVDD 48 AVDD OVDD I.C. 21 AVDD I.C. 22 R14 5 5 5 5 2 1 2 1 OPEN 2 4 3 5 C25 0.1UF I.C. 32 www.maximintegrated.com 33 VINA 142-0701-201 D0B D1B D2B D3B D4B D5B D6B D7B DORB DCLKB D0A D1A D2A D3A D4A D5A D6A D7A DORA DCLKA SDIN SCLK CSB MAX19505–MAX19507/ MAX19515–MAX19517 Evaluation Kits Evaluate: MAX19505–MAX19507/ MAX19515–MAX19517 MAX19505/MAX19506/MAX19507 EV Kit Schematics (Sheet 1 of 5) Maxim Integrated │  11 1 VINB 142-0701-201 1 OPEN R16 C26 0.1UF OPEN R13 C25 0.1UF 3 1 3 1 S S OPEN R18 ADT1-1WT+ T3 P R17 OPEN OPEN R15 ADT1-1WT+ T1 P 6 2 4 6 2 4 R22 75 R21 75 R20 75 R19 75 0 R41 0 R40 3 1 3 1 S S ADT1-1WT+ T4 P ADT1-1WT+ T2 P 6 2 4 6 2 4 R25 121 R26 121 R24 121 R23 121 0 R31 0 R27 C31 100PF TP2 C30 100PF TP1 0 R34 0 R32 0 R33 0 R30 0 R28 0 R29 VCMB J3 VCMA J2 R38 0 OPEN C35 R37 0 OPEN C34 R36 0 OPEN C33 R35 0 OPEN C32 2 AVDD 2 AVDD JU7 JU6 1 SYNC 142-0701-201 R44 100K 1 R43 100K 1 GND REFIO 0 R39 R42 49.9 C29 0.1UF CLKN CLKP INB- VCMB INB+ INA- VCMA INA+ 5 7 SPEN SHDN REFIO CLK- 6 CLK+ 16 SYNC 15 14 INB- CMB 11 10 INB+ 9 INA- CMA 2 4 INA+ 3 AVDD U1 OVDD MAX19517ETM+ 12 R14 OPEN 48 AVDD VINA 142-0701-201 2 4 3 5 2 4 3 5 5 5 5 5 13 AVDD 47 46 45 44 43 42 41 40 39 38 37 35 34 33 32 20 19 31 30 29 28 27 26 24 23 22 21 CS/OUTSEL SCLK/DIV SDIN/FORMAT DCLKA DORA D9A D8A D7A D6A D5A D4A D3A D2A D1A D0A DCLKB DORB D9B D8B D7B D6B D5B D4B D3B D2B D1B D0B GND 17 2 1 1 AVDD AVDD GND 18 2 1 36 OVDD EP 49 2 4 3 5 25 OVDD I.C. www.maximintegrated.com 8 D0B D1B D2B D3B D4B D5B D6B D7B D8B D9B DORB DCLKB D0A D1A D2A D3A D4A D5A D6A D7A D8A D9A DORA DCLKA SDIN SCLK CSB MAX19505–MAX19507/ MAX19515–MAX19517 Evaluation Kits Evaluate: MAX19505–MAX19507/ MAX19515–MAX19517 MAX19515/MAX19516/MAX19517 EV Kit Schematics (Sheet 1 of 5) Maxim Integrated │  12 Evaluate: MAX19505–MAX19507/ MAX19515–MAX19517 MAX19505–MAX19507/ MAX19515–MAX19517 Evaluation Kits MAX19505/MAX19506/MAX19507 EV Kit Schematics (Sheet 2 of 5) VLOGIC 31 42 VCC 18 VCC 48 2OE 41 2A1 2Y1 8 40 2A2 2Y2 9 38 2A3 2Y3 11 R4 47 37 2A4 2Y4 12 R5 47 25 3OE 36 3A1 3Y1 13 R6 47 35 3A2 3Y2 14 R7 47 33 3A3 3Y3 16 R8 47 32 3A4 3Y4 17 R9 47 24 4OE 30 4A1 4Y1 19 R10 47 29 4A2 4Y2 20 R11 47 27 4A3 4Y3 22 R12 47 26 4A4 4Y4 23 R45 47 1 1 4 4 3 3 6 6 5 5 8 8 7 7 10 10 9 9 12 12 11 11 14 14 13 13 16 16 15 15 18 18 17 17 20 20 19 19 22 22 21 21 24 24 23 23 26 25 25 U12 26 28 27 27 SN74AUC16244DGGR 28 30 30 29 29 32 32 31 31 GND 2 www.maximintegrated.com 42 VCC 31 VCC 18 VCC 37 1A3 1Y3 5 40 40 39 39 1A4 1Y4 6 42 42 41 41 44 44 43 43 46 46 45 45 48 48 47 47 44 43 2OE 2Y1 8 R58 47 2Y2 9 R59 47 2A3 2Y3 11 2A4 2Y4 12 3A1 3Y1 13 R62 47 3A2 3Y2 14 R63 47 33 3A3 3Y3 16 R70 47 32 3A4 3Y4 17 R71 47 24 4OE 30 4A1 4Y1 19 R72 47 29 4A2 4Y2 20 R73 47 27 4A3 4Y3 22 R74 47 4A4 4Y4 23 R75 47 35 26 GND 3OE 36 45 25 GND 37 39 38 GND 2A2 34 2A1 40 GND 41 28 D7B 37 GND D6B 38 GND D5B 35 38 21 D4B 35 3 GND D3B 36 1Y2 1A2 GND D2B 33 1Y1 1A1 46 4 D1B 33 15 D0B 34 36 10 DCLKB 34 2 1OE 47 48 DORB VCC 7 VLOGIC 1 J5 PBC24DAAN 2 45 39 4 GND 6 GND 1Y4 GND DCLKA 5 1A4 34 DORA 1Y3 GND D7A 1A3 43 28 D6A 3 44 GND D5A 2 1Y2 GND D4A 1Y1 1A2 GND D3A 1A1 46 21 D2A 1OE 15 D1A SN74AUC16244DGGR 47 10 D0A VCC 1 VCC 7 U11 Maxim Integrated │  13 Evaluate: MAX19505–MAX19507/ MAX19515–MAX19517 MAX19505–MAX19507/ MAX19515–MAX19517 Evaluation Kits MAX19515/MAX19516/MAX19517 EV Kit Schematics (Sheet 2 of 5) VLOGIC 31 42 VCC 18 VCC 2A1 2Y1 8 R1 47 40 2A2 2Y2 9 R3 47 38 2A3 2Y3 11 R4 47 37 2A4 2Y4 12 R5 47 25 3OE 36 3A1 3Y1 13 R6 47 35 3A2 3Y2 14 R7 47 33 3A3 3Y3 16 R8 47 32 3A4 3Y4 17 R9 47 24 4OE 30 4A1 4Y1 19 R10 47 29 4A2 4Y2 20 R11 47 27 4A3 4Y3 22 R12 47 26 4A4 4Y4 23 R45 47 1 1 4 4 3 3 6 6 5 5 8 8 7 7 10 10 9 9 12 12 11 11 14 14 13 13 16 16 15 15 18 18 17 17 20 20 19 19 22 22 21 21 24 24 23 23 26 25 25 U12 26 28 27 27 SN74AUC16244DGGR 28 30 30 29 29 32 32 31 31 GND 2 www.maximintegrated.com 42 VCC 31 VCC 18 VCC 5 40 40 39 39 1A4 1Y4 6 42 42 41 41 44 44 43 43 46 46 45 45 48 48 47 47 43 2OE 2Y1 8 R58 47 2Y2 9 R59 47 2A3 2Y3 11 R60 47 2A4 2Y4 12 R61 47 3A1 3Y1 13 R62 47 3A2 3Y2 14 R63 47 33 3A3 3Y3 16 R70 47 32 3A4 3Y4 17 R71 47 24 4OE 30 4A1 4Y1 19 R72 47 29 4A2 4Y2 20 R73 47 27 4A3 4Y3 22 R74 47 4A4 4Y4 23 R75 47 25 3OE 36 35 26 GND 37 45 38 GND 2A2 39 2A1 40 GND 41 34 D9B 1Y3 GND D8B 37 1A3 44 28 D7B 37 GND D6B 38 GND D5B 35 38 21 D4B 35 3 GND D3B 36 1Y2 1A2 GND D2B 33 1Y1 1A1 46 4 D1B 33 15 D0B 34 36 10 DCLKB 34 2 1OE 47 48 DORB VCC 7 VLOGIC 1 J5 PBC24DAAN 2 45 4 GND 2OE 41 GND DCLKA 48 39 DORA 6 GND D9A 1Y4 34 D8A 5 1A4 GND D7A 1Y3 28 D6A 1A3 43 GND D5A 3 44 GND D4A 2 1Y2 GND D3A 1Y1 1A2 21 D2A 1A1 46 15 D1A 1OE 47 10 D0A VCC 1 VCC 7 U11 SN74AUC16244DGGR Maxim Integrated │  14 Evaluate: MAX19505–MAX19507/ MAX19515–MAX19517 MAX19505–MAX19507/ MAX19515–MAX19517 Evaluation Kits R53 OPEN CLKP CLKN MAX19505–MAX19507/MAX19515–MAX19517 EV Kit Schematics (Sheet 3 of 5) 2 0 R49 D2 BAS70-04 Y2 R54 49.9 R55 49.9 C55 0.01UF C54 0.01UF 1 A2 3 6 4 4 3 1 0 R47 R50 OPEN 1 CLK 142-0701-201 C53 0.1UF R57 100 3 1 R46 10K 1 R56 100 R51 OPEN 2 4 3 5 3 AVDD 2 2 1 3 T5 R2 100K PWB-2-BL 6 5 1 5 5 6 GND A1 Y1 C52 0.1UF U10 VCC 2 AVDD 3 U10 4 2 0 R48 OPEN R52 J4 1 www.maximintegrated.com Maxim Integrated │  15 SCLK CSB SDIN DNI R64 0 9 8 7 6 9 8 7 6 1 2 3 4 5 R65 100 VSUPPLY 1 2 3 4 5 J6 897-43-005-00-100001 DS1 LTST-C190GKT K A AVDD C3 1UF 1 3 5 7 9 USB3V3 CLK DI 2 3 R67 10K J7 PEC05DAAN 2 4 6 8 10 NC VCC NC USB3V3 VSS CS 1 R66 10K 4 R69 2.2K R68 10K C2 10UF SPI_SCLK 1 1 USB3V3 U9 93LC56BT-I/SN DO 2 GND SHDN N.C. 5 OUT IN U2 USB3V3 MAX8511EXK33+ USB3V3 3 4 1 USB POWER 5 8 6 2 1 3 3 GND USB3V3 L2 28 L1 28 SCLK R82 12K TEST OSCO OSCI EECS EECLK EEDATA SPI_SDIN 13 3 2 63 62 61 RESET# REF 6 14 USB1V8 C82 0.1UF USB1V8 1 1 3 3 AVDD JU1 3 2 C5 8PF 4 1 1K R81 DM DP VREGOUT 49 7 8 VREGIN C81 0.1UF 50 C79 0.1UF USB1V8 C80 3.3UF C40 4.7UF + AVDD C4 8PF 4 3 2 1 Y1 12MHZ B3S-1000P NO USB3V3 C1 4.7UF + S1 2 1 COM 2 2 1 JU2 1 C84 0.1UF 26 27 28 29 30 32 33 34 38 39 40 41 43 44 45 46 48 52 53 54 55 57 58 59 60 36 BDBUS0 BDBUS1 BDBUS2 BDBUS3 BDBUS4 BDBUS5 BDBUS6 BDBUS7 CDBUS0 CDBUS1 CDBUS2 CDBUS3 CDBUS4 CDBUS5 CDBUS6 CDBUS7 DDBUS0 DDBUS1 DDBUS2 DDBUS3 DDBUS4 DDBUS5 DDBUS6 DDBUS7 PWREN# SUSPEND# SDIN 16 17 18 19 21 22 23 24 ADBUS0 ADBUS1 ADBUS2 ADBUS3 ADBUS4 ADBUS5 ADBUS6 ADBUS7 U3 FT4232HL C83 0.1UF USB3V3 FTDI USB INTERFACE 4 9 VPHY VPLL 4 4 2 2 7 12 37 64 VCCCORE VCCCORE VCCCORE AGND CSBA_USB SCLK_USB MOSI_USB C86 0.1UF SPI_CSB MOSI_USB CSBA_USB SCLK_USB C85 0.1UF USB3V3 USB3V3 C87 0.1UF 3 3 AVDD 10K R83 20 31 42 56 10 10K R84 VCCIO VCCIO VCCIO VCCIO GND GND GND GND GND GND GND GND 1 5 11 15 25 35 47 51 4 4 2 2 10K R85 4 4 2 2 1 1 JU3 C88 0.1UF CSB USB3V3 DIR2 DIR3 DIR4 A1 A2 A3 A4 2 7 8 3 4 5 6 DIR1 1 14 13 12 11 B2 B3 B4 C89 0.1UF B1 AVDD U4 SN74AVC4T774PW VCCB 15 GND VCCA OE 9 C43 0.1UF USB3V3 16 www.maximintegrated.com 10 SPI_SCLK SPI_SDIN SPI_CSB MAX19505–MAX19507/ MAX19515–MAX19517 Evaluation Kits Evaluate: MAX19505–MAX19507/ MAX19515–MAX19517 MAX19505–MAX19507/MAX19515–MAX19517 EV Kit Schematics (Sheet 4 of 5) Maxim Integrated │  16 OPEN INSTALL GND VSUPPLY INSTALL INSTALL GND VSUPPLY VSUPPLY OPEN OPEN EN SELA 3 4 C48 0.1UF EP IN 1 7 6 5 BYP OUTS SELB GND 8 OUT U14 MAX8902AATA+ 3.6V 3.3V 2.8V 2.1V C49 0.1UF DS2 LTST-C190GKT K A J1 VSUPPLY C28 10UF AVDD 3.3V 3.0V 2.5V 1.8V C6 0.1UF 75 R76 C7 0.1UF AVDD 1 2 INSTALL 9 OPEN 2 1 2 J9 C50 0.1UF OVDD C51 0.1UF DS3 LTST-C190GKT K A C75 0.01UF JU9 75 R77 C76 10UF C66 0.1UF VLOGIC AVDD 2 1 VSUPPLY MIN C67 0.1UF OVDD C27 10UF J8 VSUPPLY EN SELA 3 4 EP IN 1 7 6 5 BYP OUTS SELB GND 8 OUT U15 MAX8902AATA+ C68 0.1UF C69 0.1UF DS4 LTST-C190GKT K A C70 0.1UF 75 R78 1 2 AVDD/OVDD+VLOGIC 9 J9/J10 2 1 2 C71 0.1UF VLOGIC J10 VLOGIC C72 0.1UF C78 0.01UF JU10 C73 0.1UF C77 10UF OVDD 2 www.maximintegrated.com 1 J1/J8 MAX19505–MAX19507/ MAX19515–MAX19517 Evaluation Kits Evaluate: MAX19505–MAX19507/ MAX19515–MAX19517 MAX19505–MAX19507/MAX19515–MAX19517 EV Kit Schematics (Sheet 5 of 5) Maxim Integrated │  17 MAX19505–MAX19507/ MAX19515–MAX19517 Evaluation Kits Evaluate: MAX19505–MAX19507/ MAX19515–MAX19517 MAX19505–MAX19507/MAX1915–MAX19517 EV Kit PCB Layout Diagrams 1.0’’ MAX19505/MAX19506/MAX19507 EV Kit PCB Layout—Top Silkscreen www.maximintegrated.com Maxim Integrated │  18 MAX19505–MAX19507/ MAX19515–MAX19517 Evaluation Kits Evaluate: MAX19505–MAX19507/ MAX19515–MAX19517 MAX19505–MAX19507/MAX1915–MAX19517 EV Kit PCB Layout Diagrams (cont’d) 1.0’’ MAX19505/MAX19506/MAX19507 EV Kit PCB Layout—Top Layer www.maximintegrated.com Maxim Integrated │  19 MAX19505–MAX19507/ MAX19515–MAX19517 Evaluation Kits Evaluate: MAX19505–MAX19507/ MAX19515–MAX19517 MAX19505–MAX19507/MAX1915–MAX19517 EV Kit PCB Layout Diagrams (cont’d) 1.0’’ MAX19505/MAX19506/MAX19507 EV Kit PCB Layout—Internal 2 www.maximintegrated.com Maxim Integrated │  20 MAX19505–MAX19507/ MAX19515–MAX19517 Evaluation Kits Evaluate: MAX19505–MAX19507/ MAX19515–MAX19517 MAX19505–MAX19507/MAX1915–MAX19517 EV Kit PCB Layout Diagrams (cont’d) 1.0’’ MAX19505/MAX19506/MAX19507 EV Kit PCB Layout—Internal 3 www.maximintegrated.com Maxim Integrated │  21 MAX19505–MAX19507/ MAX19515–MAX19517 Evaluation Kits Evaluate: MAX19505–MAX19507/ MAX19515–MAX19517 MAX19505–MAX19507/MAX1915–MAX19517 EV Kit PCB Layout Diagrams (cont’d) 1.0’’ MAX19505/MAX19506/MAX19507 EV Kit PCB Layout—Bottom Layer www.maximintegrated.com Maxim Integrated │  22 MAX19505–MAX19507/ MAX19515–MAX19517 Evaluation Kits Evaluate: MAX19505–MAX19507/ MAX19515–MAX19517 MAX19505–MAX19507/MAX1915–MAX19517 EV Kit PCB Layout Diagrams (cont’d) 1.0’’ MAX19505/MAX19506/MAX19507 EV Kit PCB Layout—Bottom Silkscreen www.maximintegrated.com Maxim Integrated │  23 MAX19505–MAX19507/ MAX19515–MAX19517 Evaluation Kits Evaluate: MAX19505–MAX19507/ MAX19515–MAX19517 MAX19505–MAX19507/MAX1915–MAX19517 EV Kit PCB Layout Diagrams (cont’d) 1.0’’ MAX19515/MAX19516/MAX19517 EV Kit PCB Layout—Top Silkscreen www.maximintegrated.com Maxim Integrated │  24 MAX19505–MAX19507/ MAX19515–MAX19517 Evaluation Kits Evaluate: MAX19505–MAX19507/ MAX19515–MAX19517 MAX19505–MAX19507/MAX1915–MAX19517 EV Kit PCB Layout Diagrams (cont’d) 1.0’’ MAX19515/MAX19516/MAX19517 EV Kit PCB Layout—Top Layer www.maximintegrated.com Maxim Integrated │  25 MAX19505–MAX19507/ MAX19515–MAX19517 Evaluation Kits Evaluate: MAX19505–MAX19507/ MAX19515–MAX19517 MAX19505–MAX19507/MAX1915–MAX19517 EV Kit PCB Layout Diagrams (cont’d) 1.0’’ MAX19515/MAX19516/MAX19517 EV Kit PCB Layout—Internal 2 www.maximintegrated.com Maxim Integrated │  26 MAX19505–MAX19507/ MAX19515–MAX19517 Evaluation Kits Evaluate: MAX19505–MAX19507/ MAX19515–MAX19517 MAX19505–MAX19507/MAX1915–MAX19517 EV Kit PCB Layout Diagrams (cont’d) 1.0’’ MAX19515/MAX19516/MAX19517 EV Kit PCB Layout—Internal 3 www.maximintegrated.com Maxim Integrated │  27 MAX19505–MAX19507/ MAX19515–MAX19517 Evaluation Kits Evaluate: MAX19505–MAX19507/ MAX19515–MAX19517 MAX19505–MAX19507/MAX1915–MAX19517 EV Kit PCB Layout Diagrams (cont’d) 1.0’’ MAX19515/MAX19516/MAX19517 EV Kit PCB Layout—Bottom Layer www.maximintegrated.com Maxim Integrated │  28 MAX19505–MAX19507/ MAX19515–MAX19517 Evaluation Kits Evaluate: MAX19505–MAX19507/ MAX19515–MAX19517 MAX19505–MAX19507/MAX1915–MAX19517 EV Kit PCB Layout Diagrams (cont’d) 1.0’’ MAX19515/MAX19516/MAX19517 EV Kit PCB Layout—Bottom Silkscreen www.maximintegrated.com Maxim Integrated │  29 Evaluate: MAX19505–MAX19507/ MAX19515–MAX19517 MAX19505–MAX19507/ MAX19515–MAX19517 Evaluation Kits Revision History REVISION NUMBER REVISION DATE PAGES CHANGED 0 11/08 Initial release 1 7/09 Corrected connector name on DCEP board 5, 10 2 7/19 Updated to match Rev C and Rev D hardware, plus updated GUI 1–30 DESCRIPTION — For pricing, delivery, and ordering information, please visit Maxim Integrated’s online storefront at https://www.maximintegrated.com/en/storefront/storefront.html. 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 specifications without notice at any time. Maxim Integrated and the Maxim Integrated logo are trademarks of Maxim Integrated Products, Inc. © 2019 Maxim Integrated Products, Inc. │  30
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