MAX186EVSYS-DIP Maxim Integrated, MAX186EVSYS-DIP Datasheet
MAX186EVSYS-DIP
Specifications of MAX186EVSYS-DIP
Related parts for MAX186EVSYS-DIP
MAX186EVSYS-DIP Summary of contents
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... There are provisions for monitoring the supply current in the different shutdown states, and for varying the delay between conversions. Order the EV system (MAX186EVSYS-DIP) for compre- hensive evaluation of the MAX186 or MAX188 using a personal computer. Order the EV kit (MAX186EVKIT-DIP) if the 80C32 module (80C32MODULE-DIP) has already been purchased with a previous Maxim EV system, or for custom use in other µ ...
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MAX186 Evaluation System/Evaluation Kit EV System Component List QTY DESCRIPTION 1 MAX186 evaluation kit (MAX186EVKIT-DIP) 1 80C32 µC module (80C32MODULE-DIP) MAX186 EV System Quick Start The MAX186 EV system includes a Maxim 80C32 module and a MAX186 EV kit. The ...
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MAX186 Evaluation System/Evaluation Kit 1) Solder the 10-pin SIP resistor, provided with the kit, in the R9 location on the EV kit board. The SIP resis- tors act as pull-ups for the digital signals connected to the 8-pin header. The ...
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MAX186 Evaluation System/Evaluation Kit The MAX186 digital signals are available on the 8-pin header located on the bottom edge of the board. This header provides convenient connections for scope probes or a ribbon cable. Conversion Cycles The MAX186 performs conversions ...
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MAX186 Evaluation System/Evaluation Kit Reference Adjustment The MAX186 software assumes a reference voltage of 4.096V. This value is used for calculating the displayed results after each conversion. The value can be altered to reflect the exact reference voltage of the ...
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MAX186 Evaluation System/Evaluation Kit Figure 1. MAX186 EV Kit Schematic 6 _______________________________________________________________________________________ C5 0.1μF C4 10μF C18 0.1μF C17 0.1μF C16 0.1μF C15 0.1μF C14 0.1μF C13 0.1μF 0.1μF C12 C11 0.1μF ...
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MAX186 Evaluation System/Evaluation Kit Figure 2. MAX186 EV Kit Component Placement Guide _______________________________________________________________________________________ 7 ...
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MAX186 Evaluation System/Evaluation Kit Figure 3. MAX186 EV Kit Component-Side Layout 8 _______________________________________________________________________________________ ...
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MAX186 Evaluation System/Evaluation Kit Figure 4. MAX186 EV Kit Solder-Side Layout _______________________________________________________________________________________ 9 ...
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MAX186 Evaluation System/Evaluation Kit 80C32 Module 80C32 Module General Description The Maxim 80C32 microcontroller (µC) module is intended for use with this and other Maxim evaluation kits (EV kits). It contains the 80C32 µC, RS-232 inter- face, 8kbytes of EPROM, ...
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MAX186 Evaluation System/Evaluation Kit The MAX233 also generates the output voltages neces- sary to drive RS-232 lines. Port 0 (pins 32-39) of the 80C32 multiplexes the lower eight bits of memory address and the eight bits of read/write data. The ...
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MAX186 Evaluation System/Evaluation Kit Software Architecture Software for EV kits using the Maxim 80C32 module is divided into three elements: the interface program run- ning on an IBM-compatible PC, a module program located in EPROM, and a program supplied on ...
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MAX186 Evaluation System/Evaluation Kit Figure 5. 80C32 Module Component Placement Guide (x2) ______________________________________________________________________________________ 13 ...
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MAX186 Evaluation System/Evaluation Kit ALL D9 MNEMONICS REFER TO THE HOST (DTE) 5 GND 1 DCD 4 DTR MAX233A 6 DSR U2 + TXD OUT OUT IN 4 ...
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MAX186 Evaluation System/Evaluation Kit A10 11 23 A11 ...
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MAX186 Evaluation System/Evaluation Kit Figure 7. 80C32 Module Component-Side Layout (x2) 16 ______________________________________________________________________________________ ...
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MAX186 Evaluation System/Evaluation Kit Figure 8. 80C32 Module Solder-Side Layout (x2) ______________________________________________________________________________________ 17 ...
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... Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are implied. Maxim reserves the right to change the circuitry and specifications without notice at any time. Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 ____________________ 18 © 2008 Maxim Integrated Products DESCRIPTION is a registered trademark of Maxim Integrated Products, Inc ...