MAXQ2000_05

Rev 2; 7/05 MAXQ2000 Evaluation Kit General Description The MAXQ2000 evaluation kit (EV kit) is a proven platform to conveniently evaluate the capabilities of the MAXQ2000 low-power LCD microcontroller. The kit contains the MAXQ2000 with pins brought out to headers, a JTAG programming interface, fixed and adjustable power supplies, a DB-9 serial connector, an LCD display, and switches and LEDs to control and display board operation. With the included software, serial-toJTAG interface board, and an RS-232 cable connected to a personal computer, the kit provides a completely functional system ideal for evaluating the capabilities of the MAXQ2000. Features ♦ Easily Loads Code Using Bootstrap Loader and Serial-to-JTAG Interface Board ♦ JTAG Interface Provides In-Application Debugging Features Step-by-Step Execution Tracing Breakpointing by Code Address, Data Memory Address, or Register Access Data Memory View and Edit ♦ Removable, Static, 4-1/2 Digit LCD Display ♦ DB-9 RS-232 Serial Connector and Level Translator ♦ On-Board 3.6V, 2.5V and Adjustable 1.8V to 3.6V Power-Supply Regulators ♦ Evaluation Kit Board can be Powered Directly over JTAG Interface ♦ Processor Clock can be run from Crystal or Programmable Oscillator ♦ Serial EEPROM ♦ DS2433 1-Wire® EEPROM Demonstrates Use of 1-Wire Interface ♦ MAX1407 ADC/DAC Demonstrates Use of SPI™ Interface ♦ Optional LED Display of Port 0 Logic Levels ♦ Pushbutton Switches for Reset and Interrupt Generation ♦ 32kHz Crystal for Real-Time Clock Oscillator Use ♦ Prototyping Area Including VDDIO and VDD Voltage Rails Evaluates: MAXQ2000 Evaluation Kit Contents ♦ MAXQ2000 Evaluation Kit Board with Processor and 13.5MHz Crystal Installed ♦ Serial-to-JTAG Interface Board and JTAG Cable ♦ MAXQ2000 LCD Display Daughterboard ♦ MAXQ2000 Evaluation Kit CD-ROM Ordering Information PART MAXQ2000-KIT DESCRIPTION MAXQ2000 EV Kit Board MAXQ is a registered trademark of Maxim Integrated Products, Inc. 1-Wire is a registered trademark of Dallas Semiconductor Corp. SPI is a trademark of Motorola, Inc. ♦ Test/Expansion Header Includes All Device GPIO and LCD Pins ♦ Configuration DIP Switches Connect/Disconnect All Demonstration Circuitry from Port Pins ♦ Board Schematics Provide a Convenient Reference Design ______________________________________________ Maxim Integrated Products 1 For pricing, delivery, and ordering information, please contact Maxim Direct at 1-888-629-4642, or visit Maxim’s website at www.maxim-ic.com. MAXQ2000 Evaluation Kit Evaluates: MAXQ2000 Component List—Evaluation Kit Board DESIGNATION C1, C3, C4, C19 C2, C5, C6 C7, C8, C11–C16, C20–C24 C9, C10 C17 C18 JU1, JU2, JU3 JU4–JU11 J1 J2 J3 J4 J5 J6 J7 RN1 R1, R4, R5 R2 R3, R6 R7 R8 R9–R13 R14–R20 R21 SW1, SW3, SW6 SW2, SW4, SW5 TP1—TP4 U1, U2, U3 U4 U5 U6 U7 U8 U9 U10 U11 Y1 Y2, Y3 QTY 4 3 13 2 1 1 3 8 1 1 1 1 1 1 1 1 3 1 2 1 1 5 7 1 3 3 4 3 1 1 1 1 1 1 1 1 1 2 DESCRIPTION 10µF, 10V tantalum capacitors 10µF, 16V capacitors (1210) 100nF 10%, 10V capacitors (0805) 10pF 5%, 50V capacitors (0805) 18nF 10%, 10V capacitor (0805) 4.7µF 10%, 10V capacitor (0805) 1 x 3, 0.1” spaced jumpers 1 x 2, 0.1” spaced jumpers Male 2mm power connector 2 x 36, 0.1” spaced header 2 x 26, 0.1” spaced header 2 x 5, 0.1” spaced header Female RS-232 DB9 connector DS9094F surface-mount iButton® clip 1 x 8, 0.1” spaced header 1kΩ SIP-9 resistor pack 25.5kΩ 1%, 1/8W resistors (0805) 50kΩ potentiometer resistor 13.0kΩ 1%, 1/8 W resistors (0805) 23.7kΩ 1%, 1/8 W resistor (0805) 10kΩ potentiometer resistor 1kΩ, 1/8W resistors (0805) 10kΩ, 1/8 W resistors (0805) Empty resistor footprint (0805) DIP switches x 8 SPST N/O pushbutton 1 x 2, 0.100” spaced test points MAX1658 350mA linear regulator MAXQ2000 low-power LCD micro DS1077L 3V EconOscillator™ MAX3387E 3V RS-232 transceiver DS2433 4kB 1-Wire EEPROM MAX1407 16-bit multi-ADC/DAC AT24C32A 1.8V I C EEPROM 74VHC541 octal buffer 10-segment bar graph red LED 13.5MHz, 18pF crystal 32kHz, 6pF crystals 2 SUPPLIER Panasonic Panasonic Generic Panasonic Generic Generic 3M 3M CUI Inc. 3M 3M 3M Amp/Tyco Dallas Semiconductor 3M CTS Generic Panasonic Generic Generic Panasonic Generic Generic — C&K Omron 3M Maxim Maxim Dallas Semiconductor Maxim Dallas Semiconductor Maxim Atmel Fairchild Fairchild Citizen Epson PART ECS-T1AX106R ECJ3YF1C106Z — ECJ2VC1H100D — — 929834-02-03 929834-02-02 PJ-002A 929836-02-36 929836-02-26 929836-02-05 745781-4 DS9094FS 929834-02-08 770-10-1-102 — EVN-D2AA03B54 — — EVN-D2AA03B14 — — — SDA08H1KD B3FS-1000 929834-02-02 MAX1658ESA MAXQ2000-RAX DS1077LZ-40 MAX3387ExUG DS2433S MAX1407CAI AT24C32AN-10SI-1.8 74VHC541MTC MV57164 HC49US13.500MABJ C-002RX32.768K-E iButton is a registered trademark of Dallas Semiconductor Corp. EconOscillator is a trademark of Dallas Semiconductor Corp. 2 _____________________________________________________________________ MAXQ2000 Evaluation Kit Component List—LCD Display Daughterboard DESIGNATION C1–C4 J1 R1–R3 U1 QTY 4 1 3 1 DESCRIPTION Empty capacitor footprint (0805) 2 x 26, 0.1” spaced socket Empty resistor footprint (0805) Static, 3V, 4-1/2 digit display LCD — 3M — Varitronix SUPPLIER — 929975-01-26 — VI-502-DP-RC-S PART Evaluates: MAXQ2000 Detailed Description This evaluation kit must be used with the following documents: • MAXQ2000 Data Sheet (www.maxim-ic.com/MAXQ2000) • MAXQ Family User’s Guide (www.maxim-ic.com/MAXQUG) • MAXQ Family User’s Guide: MAXQ2000 Supplement (www.maxim-ic.com/MAXQ2k_sup) The MAXQ2000 EV kit board and LCD display daughterboard are fully defined in the schematics provided in this document. However, a short description of the major components and connectors of the boards follows. • Connect a 5V, ±5% regulated DC wall supply to the J2 power plug of the serial-to-JTAG interface board. • Connect a 6V to 9V DC wall supply (center post positive, at least 300mA capacity) to the J1 power plug of the MAXQ2000 EV kit board. Note: When using two power supplies in this manner, the JU11 jumper on the MAXQ2000 EV kit board must be DISCONNECTED. Power Supplies There are three different ways to set up power supplies when using the MAXQ2000 EV kit. The two boards that require power supplies are the MAXQ2000 EV kit board and the serial-to-JTAG interface board. The LCD daughterboard simply plugs into the MAXQ2000 EV kit board and does not require its own power supply. Two different types of power supplies (which are not included with the MAXQ2000 EV kit) are required to set up the configurations listed below. • 5V, ±5% 300mA DC regulated supply (25mm, center-post, positive female connector) to power the serial-to-JTAG interface board. • 6V to 9V, 300mA DC supply (2.5mm, center-post, positive female connector) to power the MAXQ2000 EV kit board. Running Both Boards from a Single Power Supply If the serial-to-JTAG interface board is being used, a single power supply can be used to power both boards as follows. • Connect a 5V, ±5% regulated DC wall supply to the J2 power plug of the serial-to-JTAG interface board. • Connect the JH3 jumper on the serial-to-JTAG interface board. • Connect the JU11 jumper on the MAXQ2000 EV kit board. Note: Do not connect a power supply to the J1 plug on the MAXQ2000 EV kit when powering the boards in this manner. Running the MAXQ2000 EV KIT Board from a Single Power Supply If the MAXQ2000 has already been programmed using the JTAG interface, it is possible to disconnect the serial-to-JTAG board and power up the MAXQ2000 Evaluation Kit board on its own. This simply executes the previously loaded firmware, with no possibility of inapplication load or debugging. • Connect a 6V to 9V DC wall supply (center post positive, at least 300mA capacity) to the J1 power plug of the MAXQ2000 EV kit board. Running Both Boards from Separate Power Supplies To run each of the boards from its own power supply, connect supplies as follows. _____________________________________________________________________ 3 MAXQ2000 Evaluation Kit Evaluates: MAXQ2000 Internal Power Rails The MAXQ2000 EV kit board generates three internal power rails from the DC input power supply (from J1 or the serial-to-JTAG board). Each of these supplies may be used to support up to 100mA of additional circuitry in the prototyping area. (Note: Test point TP1 is board ground.) • The adjustable power supply, which can be measured at test point TP2, provides an adjustable voltage between +1.8V and +3.6V. The level of this supply can be adjusted manually by turning potentiometer R2 with a screwdriver. • The 3.6V fixed power supply can be measured at test point TP3. This voltage level can be used for VDDIO or VLCD, but not VDD. • The 2.5V fixed power supply can be measured at test point TP4. This voltage level can be used for VDDIO, VLCD, or VDD. Table 1 shows how the jumpers connect the MAXQ2000 power rails to the on-board power supplies. Using the LCD Display To use the LCD daughterboard, it should be installed on the J3 connector of the MAXQ2000 EV kit board. Pin 1 on J3 should line up with pin 1 of the LCD daughterboard J1 connector. Note that when the LCD daughterboard is installed correctly, it hangs off the top edge of the MAXQ2000 EV kit board. When the LCD display is in use, VLCD should be connected to +3.6V. The LCD display on the LCD daughterboard is a static, 4-1/2 digit display. Figure 4 shows how the segments are mapped. If the LCD display is not needed, it can be removed to free up port pins P0.0–P0.7, P1.0–P1.7, P2.0–P2.7, and P3.0–P3.7 for other uses. Additional Hardware Features Most of the additional hardware on the MAXQ2000 EV kit board, such as the serial port, the MAX1407, and the 1-Wire interface, can be enabled or disabled by setting jumpers or DIP switches. Disabling unused hardware frees up the associated port pins for other uses. Table 1. Power-Supply Jumper Settings JUMPER JU1 JU1 JU1 JU2 JU2 JU2 JU3 JU3 JU3 SETTING (No jumper) Pins 1 and 2 connected Pins 2 and 3 connected (No jumper) Pins 1 and 2 connected Pins 2 and 3 connected (No jumper) Pins 1 and 2 connected Pins 2 and 3 connected EFFECT VDD is floating (drive from bench supply)* VDD is driven by +2.5V fixed supply VDD is driven by adjustable supply* VDDIO is floating (drive from bench supply) VDDIO is driven by +3.6V fixed supply VDDIO is driven by adjustable supply VLCD is floating (drive from bench supply) VLCD is driven by +3.6V fixed supply VLCD is driven by adjustable supply * Refer to the MAXQ2000 data sheet for the allowable range of the VDD supply. 4 _____________________________________________________________________ MAXQ2000 Evaluation Kit Evaluates: MAXQ2000 Table 2. Other Jumper and DIP Switch Settings JUMPER/ SWITCH JU4 JU5 JU6 SW1 #1 SW1 #2 SW1 #3 SW1 #4 SW1 #5 SW1 #6 SW1 #7 SW1 #8 JU7 JU8 JU9 JU10 JU11 SW3 #1 SW3 #2 SW3 #3 SW3 #4 SW3 #5 SW3 #6 SW3 #7 SW3 #8 SW6 #1 SW6 #2 SW6 #3 SW6 #4 SW6 #5 SW6 #6 SW6 #7 SW6 #8 WHEN OPEN/OFF HFXIN is driven by the socketed crystal No effect No effect No effect No effect No effect No effect No effect No effect No effect No effect No effect No effect No effect No effect Kit board is powered from J1 supply No effect No effect No effect No effect No effect No effect No effect No effect No effect No effect No effect No effect No effect No effect No effect No effect WHEN CLOSED/ON HFXIN is connected to HFXADJ P6.0 is connected to DS1077 SCL P6.1 is connected to DS1077 SDA RS-232 DTR/CTS connected (loopback test) RS-232 RTS/DSR connected (loopback test) RTS flow control input connected to P5.2 Serial receive connected to P7.1 (RXD0) DTR flow control input connected to P5.3 DSR flow control output connected to P6.4 Serial transmit connected to P7.0 (TXD0) CTS flow control output connected to P6.5 DS2433 data line connected to 1-Wire bus P6.2 (OWOUT) connected to 1-Wire bus P6.3 (OWIN) connected to 1-Wire bus HFXADJ is driven by DS1077L output Kit board will be powered over JTAG MAX1407 RESET connected to P6.4 HFXADJ is driven by MAX1407 FOUT MAX1407 CS connected to P5.4 (SSEL) MAX1407 SCLK connected to P5.6 (SCLK) MAX1407 DIN connected to P5.5 (MOSI) MAX1407 DOUT connected to P5.7 (MISO) MAX1407 INT connected to P6.0 MAX1407 DRDY connected to P6.1 MAX1407 WU1 connected to P6.5 SW4 pulls P5.2 to ground when pressed (Note 1) SW4 pulls P5.3 to ground when pressed (Note 1) SW5 pulls P7.0 to ground when pressed (Note 2) SW5 pulls P7.1 to ground when pressed (Note 2) EEPROM SCL connected to P6.0 EEPROM SDA connected to P6.1 LED bar graph displays Port 0 logic levels Note 1: If both SW6 #2 and #3 are closed, P5.2 and P5.3 will be shorted together. Note 2: If both SW6 #4 and #5 are closed, P7.0 and P7.1 will be shorted together. _____________________________________________________________________ 5 MAXQ2000 Evaluation Kit Evaluates: MAXQ2000 Figure 1. MAXQ2000 Evaluation Kit Setup TEST MODE SELECT TEST CLOCK WINDOWS PC SERIAL (COM) PORT SERIAL-TO-JTAG INTERFACE ADAPTER TEST DATA IN MAXQ2000 TEST DATA OUT RS-232 INTERFACE JTAG/TAP INTERFACE Figure 2. MAXQ2000 Serial-to-JTAG Interface 6 _____________________________________________________________________ MAXQ2000 Evaluation Kit Evaluates: MAXQ2000 Figure 3. MAXQ2000 Evaluation Kit Functional Layout Figure 4. LCD Daughterboard Display Memory Mapping _____________________________________________________________________ 7 Evaluates: MAXQ2000 MAXQ2000 Evaluation Kit Figure 5. MAXQ2000 Evaluation Kit Power Schematics—Power (1 of 6) VDD VP25 TP1 GND 1 VPIN 3 IN3 OUT4 OUT5 5 1 R1 25.5k 1% 2 2 SET 1 2 GND 8 1 R3 13.0k 1% 3 2 1 1 1 IN6 IN7 6 VDDIO 7 4 JU1 2 3 VTEST VTEST 8 U1 MAX1658 2 SHDN 1 VLCD 2 VP36 1 JU3 2 3 VTEST VP36 1 JU2 2 3 VTEST TP2 +2.5V C2 10μF 16V 2 R2 0....50k 1% C1 10μF 10V VP36 VPIN 3 6 1 R4 25.5k 1% 2 2 SET 1 GND 8 2 2 R6 13.0k 1% 1 C3 10μF 10V 1 1 2 2 SHDN TP3 +3.6V 1 7 IN3 IN6 IN7 OUT4 OUT5 4 5 OUT4 OUT5 5 4 VP25 1 2 J1 VPIN IN 1 G1 2 G2 3 PJ-002A CENTER POST POSTIVE 5-9 VDC VPIN 3 IN3 6 IN6 _____________________________________________________________________ U2 MAX1658 U3 MAX1658 SET 1 1 C6 10μF 16V GND 8 2 R7 23.7k 1% 1 2 C4 10μF 10V 1 R5 25.5k 1% 2 1 2 TP4 +2.5V 7 IN7 2 SHDN 1 2 C5 10μF 16V P0[7:0] VADJ VLCD2 VLCD1 VLCD P7[1:0] P1[7:0] P12 P11 P10 P07 P06 P05 P04 P03 P02 P01 P00 P71 P70 VDDIO 1 HFXADJ VDDIO 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 VDD JU4 2 1 49 P12_SEG10 P11_SEG9 P10_SEG8 P07_SEG7 P06_SEG6 P05_SEG5 P04_SEG4 P03_SEG3 P02_SEG2 P01_SEG1 P00_SEG0 VADJ VLCD2 VLCD1 VLCD P71_RXD0 P70_TXD0 VDD VDDIO HFXIN 1 1 2 HFXOUT 50 1 Y1 16MHz SOCKETED C10 10pF 2 2 27 51 C9 10pF 2 C8 100nF 10V 1 C24 100nF 2 10V VDD U4 MAXQ2000 P57_MISO P56_SCLK P55_MOSI P54_SS P53_TXD1 P52_RXD1 32KIN 1 2 32KOUT 35 VDDIO 8 VCC 3 VBCK 4 GND P40 P41 P42 P43 Y2 32.768kHz P40_TCK P41_TDI P42_TMS P43_TDO RESET 41 40 39 38 37 36 34 P57 P56 P55 P54 P53 P52 1 18 19 20 21 22 23 24 25 26 P34_SEG28 P35_SEG29 P36_SEG30 P37_SEG31 SEG32 COM3_SEG33 COM2_SEG34 COM1_SEG35 COM10 29 30 31 32 33 P30 P31 P32 P33 P34 P35 P36 P37 Figure 5. MAXQ2000 Evaluation Kit Power Schematics—Processor (2 of 6) P65_TO P64_T0B P63_T2_OWIN P62_T2B_OWOUT P61_T1 P60_T1B 48 47 46 45 44 43 P65 P64 P63 P62 P61 P60 P6[5:0] P13 P14 P15 P16 P17 P20 P21 P22 P23 P24 P25 P26 P27 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 P13_SEG11 P14_SEG12 P15_SEG13 P16_SEG14 P17_SEG15 P20_SEG16 P21_SEG17 P22_SEG18 P23_SEG19 P24_SEG20 P25_SEG21 P26_SEG22 P27_SEG23 P30_SEG24 P31_SEG25 P32_SEG26 P33_SEG27 P5[7:2] 28 42 GNDa GNDb 1 7 SQW 6 SCL 5 SDA R21 EMPTY 2 SCL_60 SDA_61 2 C7 100nF 10V P2[7:0] U12 P3[7:0] DS1339U-33 X1 1 X2 2 Y4 32.768kHz 1 2 SEG32 SEG33 SEG34 SEG35 COM0 P4[3:0] Evaluates: MAXQ2000 _____________________________________________________________________ RESET MAXQ2000 Evaluation Kit 9 Evaluates: MAXQ2000 MAXQ2000 Evaluation Kit Figure 5. MAXQ2000 Evaluation Kit Power Schematics—ICE Interface/Header (3 of 6) P1[7:0] VDDIO 1 J2 VDDIO P0[7:0] P12 P11 P10 P07 P06 P05 P04 P03 P02 P01 P00 P13 P14 P15 P16 P17 P20 P21 P22 P23 P24 P25 P26 P27 P30 P31 P32 P33 P34 P35 P36 P37 VADJ VLCD2 VLCD1 VLCD P7[1:0] SEG32 SEG33 SEG34 SEG35 COM0 P71 P70 P65 P64 P63 P62 P61 P60 P57 P56 P55 P54 P53 P52 P6[5:0] RESET P40 P41 P42 P43 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41 43 45 47 49 51 53 55 57 59 61 63 65 67 69 71 HEADER 2 x 36 P4[3:0] P5[7:2] 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 46 48 50 52 54 56 58 60 62 64 66 68 70 72 10 ____________________________________________________________________ P2[7:0] P3[7:0] P1[7:0] J3 P0[7:0] P2[7:0] P12 P11 P10 P07 P06 P05 P04 P03 P02 P01 P00 VADJ VLCD2 VLCD1 VLCD P13 P14 P15 P16 P17 P20 P21 P22 P23 P24 P25 P26 P27 P30 P31 P32 P33 P34 P35 P36 P37 VDDIO P3[7:0] SEG32 SEG33 SEG34 SEG35 COM0 HEADER 2 x 26 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41 43 45 47 49 51 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 46 48 50 52 1 R14 10k 2 2 SCL_60 1 R15 10k Figure 5. MAXQ2000 Evaluation Kit Power Schematics—LCD/Clock/JTAG (4 of 6) VDDIO VPIN VDDIO U5 JU5 1 JU10 2 1 1 3 VCC 1 OUT1 2 OUT0 4 GND 8 SCL 7 SDA 6 CTRL1 5 CTRL0 DS1077LZ-40 2 2 JU6 SCL_61 1 HFXADJ JU11 J4 2 P60 P61 RESET VDDIO 1 3 5 7 9 TCK TDO TMS KEY TDI HEADER 2 x 5 (JTAG) 2 GND VREF RST VCC5 GND 2 4 6 8 10 1 C11 100nF 10V P40 P43 P42 QTCK QTDO QTMS Evaluates: MAXQ2000 ____________________________________________________________________ P41 QTDI MAXQ2000 Evaluation Kit 11 Evaluates: MAXQ2000 VDDIO U6 15 24 VL FORCEOFF C1+ 1 C2+ 4 VCC 24 1 VP36 MAXQ2000 Evaluation Kit Figure 5. MAXQ2000 Evaluation Kit Power Schematics—Serial/1-Wire (5 of 6) C12 1 100nF 10V 2 12 MAX3387ExUG 2 C2T1OUT T2OUT T3OUT 18 17 16 J5 6 1 2 GND 22 9 11 INVALID FORCEON C15 100nF 10V DTR0_232 CTS0_232 RXD0_232 RTS0_232 TXD0_232 DSR0_232 R1IN R2IN R3IN V21 20 19 5 3 C1T1IN T2IN T3IN R1OUT R2OUT R3OUT V+ 7 8 10 14 13 12 2 C14 1 100nF 10V 2 5 9 4 8 3 7 2 6 1 DB9 FEMALE CONNECTOR C13 100nF 10V SW1 RTS0 RXD0 DTR0 DSR0 TXD0 CTS0 1 2 3 4 5 6 7 8 16 15 14 13 12 11 10 9 DIP SW x 8 J6 U7 DS9094 VDDIO VDDIO P52 P71 P53 P64 P70 P65 GND DATA 1 NC1 2 NC2 3 DATA 4 GND 8 NC8 7 NC7 6 NC6 5 NC5 DS2433S 1 JU7 JU8 1 2 2 1 2 JU9 1 2 R8 0..10k 2 1 R13 1k 1 2 C16 100nF 10V ____________________________________________________________________ P62 P63 VDDIO SW2 4 1 1 R17 10k R18 10k U8 26 SW3 2 2 1 C17 18nF 10V B3FS-1000 R9 1k 2 J7 1 2 DVDD AVDD 8 2 1 R16 10k 1 VDDIO RESET 3 MAX1407CAI 2 P64 HFXADJ P54 P56 P55 P57 P60 P61 SW4 4 3 PB1 19 DIP SW x 8 1 2 6 HEADER 1 x 8 1 B3FS-1000 R10 1k 2 SW5 4 SW6 PB1 1 PB2 R19 10k VDDIO 2 2 R20 10k U9 R11 1k 1 A0 2 A1 3 A2 4 GND AT24C32A 1.8V 12C EEPROM VDDIO U10 OE1 VCC 20 U11 RN1 1 1 2 C22 100nF 10V C20 1 100nF 10V 2 C21 1 100nF 10V 2 1 2 C23 100nF 10V 1 C19 10μF 10V 2 2 3 4 5 6 7 8 9 10 1k x 9 MV57164 1 2 3 4 5 6 7 8 9 10 20 19 18 17 16 15 14 13 12 11 VDDIO VDDIO 2 8 VCC 7 WP 6 SCL 5 SDA 1 1 B3FS-1000 16 15 14 13 12 11 10 9 VDDIO 3 PB2 1 2 AGND DGND 7 25 C18 4.7μF 10V Y3 32.768kHz 2 18 CLKOUT SHDN D0 WU1 WU2 15 2 10 11 REF CLKN CPLL IN0 IN1 IN2 IN3 OUT1 FB1 OUT2 FB2 1 2 3 4 5 6 7 8 1 9 5 13 14 27 4 3 28 1 Figure 5. MAXQ2000 Evaluation Kit Power Schematics—MAX1407 (6 of 6) 16 15 14 13 12 11 10 9 RESET FOUT CS SCLK DIN DOUT INT DRDY 12 17 24 23 22 21 20 16 2 1 DIP SW x 8 IN0 IN1 IN2 IN3 IN4 IN5 IN6 IN7 OE2 74LVX541MTC GND 10 OUT0 OUT1 OUT2 OUT3 OUT4 OUT5 OUT6 OUT7 18 17 16 15 14 13 12 11 1 2 3 4 5 6 7 8 P65 P52 P53 P70 P71 P60 P61 1 2 3 4 5 6 7 8 VDDIO 1 R12 2 1k 1 P00 P01 P02 P03 P04 P05 P06 P07 2 3 4 5 6 7 8 9 Evaluates: MAXQ2000 ____________________________________________________________________ 19 MAXQ2000 Evaluation Kit 13 Evaluates: MAXQ2000 J1 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41 43 45 47 49 51 SEG10_P12 SEG9_P11 SEG8_P10 SEG7_P07 SEG6_P06 SEG5_P05 SEG4_P04 SEG3_P03 SEG2_P02 SEG1_P01 SEG0_P00 VADJ VLCD2 VLCD1 VLCD 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 46 48 50 52 U1 MAXQ2000 Evaluation Kit Figure 6. MAXQ2000 Evaluation Kit LCD Daughterboard Schematic 14 HEADER 2 x 26 C1 VLCD 1 R1 EMPTY 2 VLCD1 1 R2 EMPTY 2 VLCD2 1 R3 EMPTY 2 VADJ 1 C4 2 EMPTY 1 C3 2 EMPTY 1 C2 2 EMPTY COM0 EMPTY 1 2 COM0 SEG35 SEG34 SEG31_P37 SEG28_P34 SEG27_P33 SEG26_P32 SEG23_P27 SEG20_P24 SEG19_P23 SEG18_P22 SEG15_P17 SEG12_P14 SEG11_P13 SEG10_P12 SEG7_P07 SEG4_P04 SEG3_P03 SEG2_P02 SEG1_P01 SEG0_P00 SEG5_P05 SEG6_P06 SEG9_P11 SEG8_P10 SEG13_P15 SEG14_P16 SEG32 SEG17_P21 SEG16_P20 SEG21_P25 SEG22_P26 SEG33 SEG25_P31 SEG24_P30 SEG29_P35 SEG30_P36 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 COM1 SEG2 SEG3 SEG4 SEG5 SEG6 SEG7 SEG8 SEG9 SEG10 SEG11 SEG12 SEG13 SEG14 SEG15 SEG16 SEG17 SEG18 SEG19 SEG20 SEG21 SEG22 SEG23 SEG24 SEG25 SEG26 SEG27 SEG28 SEG29 SEG30 SEG31 SEG32 SEG33 SEG34 SEG35 SEG36 SEG37 SEG38 SEG39 COM40 VI-502-DP ____________________________________________________________________ SEG11_P13 SEG12_P14 SEG13_P15 SEG14_P16 SEG15_P17 SEG16_P20 SEG17_P21 SEG18_P22 SEG19_P23 SEG20_P24 SEG21_P25 SEG22_P26 SEG23_P27 SEG24_P30 SEG25_P31 SEG26_P32 SEG27_P33 SEG28_P34 SEG29_P35 SEG30_P36 SEG31_P37 SEG32 SEG33 SEG34 SEG35 COM0 Bead R12 47 FB10 Available '430 I/O 10K MAX9140EUK-T V50 P1 VCC R11 5 VDD INU1 R13 1.0K C1 100nF R14 3.3K 100nF 4 VCC Z 100nF 47pF T1IN 1 3 20 13 14 10 T2IN R1OUT R2OUT C1+ C1V17 8 VbGNDa VCC C5 VCC C20 3.3uF 16 VTREF nRST MAX3204EET C6 C21 2N7002 Q1 C19 1N5819 100nF 7 JTAG Interface 7 NC 8 MAX4619CUE GND EA RST VCC VCC U3 DS89C430-ENL GNDb 6 1 R6 0 R7 2.2K 3 U6A 74VHC125 2 V50 6 4 13 Spread EMI Option 14 C17 9 12 U6C U6D 10 Evaluates: MAXQ2000 Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 ____________________ 15 4 OUT GND IN+ 1 2 3 FB1 R1 R2 47 24 Pin Dual Row (12x2) R3 47 FB4 R4 47 FB5 R15 10 DS1 820 V50 D2 VCC C3 100nF LED V50 V50 U2 VCC R10 TCK TDO TDI 47 TMS FB2 FB3 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. is a registered trademark of Dallas Semiconductor Corporation. 1 3 5 7 9 11 13 15 17 19 21 23 2 4 6 8 10 12 14 16 18 20 22 24 1 2 3 IO1 VCC IO2 IO4 GND IO3 6 5 4 C9 22pF V50 C10 100nF FB6 Bead D1 C13 1N5908 V50 V50 47K R8 100nF 100nF 3.3uF C18 C14 V50 100nF C11 C8 22pF 6 38 GND GND GND GND 16 17 28 39 9 © 2005 Maxim Integrated Products Async Serial Interface J1 TMS Bead TDI TDO Bead Bead TCK Bead Bead C2 10nF C4 100nF 2 T1OUT T2OUT R1IN R2IN C2+ C2b+ U4 5 18 Bead FB7 37 36 35 34 33 32 31 30 P0.0/AD0 P0.1/AD1 P0.2/AD2 P0.3/AD3 P0.4/AD4 P0.5/AD5 P0.6/AD6 P0.7/AD7 P2.0/A8 P2.1/A9 P2.2/A10 P2.3/A11 P2.4/A12 P2.5/A13 P2.6/A14 P2.7/A15 18 19 20 21 22 23 24 25 Figure 7. MAXQ2000 Evaluation Kit JTAG Board Schematic 15 Y X U5 SCL SDA 4 Bead FB8 P2 19 Bead FB9 14 1 V50 JH3 2 Pin 1 3 5 7 9 2 6 15 14 Y1 7.3728MHz 2 4 6 8 10 EN XTAL1 XTAL2 ALE PSEN 27 26 R eset TDO TCK TMS TDI /Enable 5x2 Z1 Z0 C Y1 Y0 B X1 X0 A 40 41 42 43 44 1 2 3 P1.0/T2 P1.1/T2EX P1.2 P1.3 P1.4 P1.5 P1.6 P1.7 P3.0/RXD P3.1/TXD P3.2/INT0 P3.3/INT1 P3.4/T0 P3.5/T1 P3.6/WR P3.7/RD 5 7 8 9 10 11 12 13 3 5 9 1 2 10 13 12 11 12 15 C2C2bV+ 16 11 1 6 2 7 3 8 4 9 5 DB9Female 29 4 MAX203ECWP 5VDC +- 5% Crystal Option Short to use DTR 2-Pin JH1 1 2 2-Pin 1 JH2 2 R9 47K R5 68K C9 10nF 500 mA Coaxial Power Jack 11 22 33 F1 C12 J2 Place either: A) C7+C8+Y1 or B) U7+R6 NOT BOTH! 10nF Open = Reset Short = Loader U6B 74VHC125 P3 5 U7 V50 1 2 3 4 C16 DS1086 10nF C15 100nF OUT SCL SPRD SDA VCC nPD GND OE 8 7 6 5 SCL SDA V50 1 2 3 1 2 3 3-Pin Male V50 8 11 74VHC125 100nF 7 74VHC125 MAXQ2000 Evaluation Kit is a registered trademark of Maxim Integrated Products, Inc.