MAX1284EVKIT Maxim Integrated Products, MAX1284EVKIT Datasheet - Page 4

Choose the desired sampling rate (QSPI™ Clock),

sampling size (Sample! menu item), and press Begin

Sampling! (in Sample! pop-up window). Sample size is

restricted to a power of 2 to permit FFT processing

once the data is saved to a file. After the samples have

been collected, the data is automatically uploaded to

the host and graphed. Once displayed, the data can

be saved optionally to a file.

Data in the real-time graph and in sampled data graphs

may be saved to a file. Only the raw output codes are

saved, but voltages may be inferred, based on the ref-

erence voltage and the maximum code value.

The evaluation software configures the 68HC16’s QSPI

submodule to continuously read data from the

MAX1284 into the 68HC16. The sample rate is con-

trolled by the QSPI clock. To evaluate power-saving

modes, these automatic updates must be stopped.

First, set the QSPI clock control to STOP. This reconfig-

ures the 68HC16’s QSPI submodule to stop driving the

serial clock. Second, in the evaluation software’s main

window, uncheck the Read Every...msec checkbox. If

evaluating the hardware shutdown, move jumper JU2

to the 2-3 position.

The evaluation software assumes a 2.5V reference volt-

age, unless otherwise specified. Refer to the MAX1284

data sheet for more information. To override this value,

type the new reference voltage into the Vref edit box

and press the Set Vref button.

MAX1284 Evaluation Kit/Evaluation System

QSPI is a trademark of Motorola, Inc.

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Saving Graphs to Disk

Evaluating Shutdown

Reference Voltage

Sampling

The MAX1284 (U1) is a high-speed, 12-bit data-

acquisition system. Resistor R1 (1kΩ) and capacitor C1

(0.01µF) form a single-pole, low-pass anti-aliasing filter

with a nominal 10µs time constant and a corner fre-

quency of approximately 16kHz. C3 and C4 bypass the

analog-to-digital converter’s (ADC’s) voltage reference.

When plugged into the 68HC16MODULE, the V

cuit is powered by +5V (Figure 1; refer to the MAX1284

IC data sheet).

Problem: No output measurement. System seems to

report zero voltage or fails to make a measurement.

1) Check the V

2) Check the reference voltage using a DVM.

3) Use an oscilloscope to verify that the conversion-

Problem: Measurements are erratic, unstable; poor

accuracy.

1) Check the reference voltage using a DVM.

2) Use an oscilloscope to check for noise.

3) When probing for noise, keep the oscilloscope

start signal is being strobed. Verify that SHDN is

being driven high.

ground return lead as short as possible, preferably

less than 1/2in (10mm).

Detailed Hardware Description

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supply voltage.

Troubleshooting

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cir-