ADUC702X_1 AD [Analog Devices], ADUC702X_1 Datasheet - Page 74

ADUC702X_1

Manufacturer Part Number

ADUC702X_1

Description

Precision Analog Microcontroller 12-bit Analog I/O, ARM7TDMI MCU

Manufacturer

AD [Analog Devices]

Datasheet

1.ADUC702X_1.pdf (78 pages)

Current page: 74 of 78
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ADuC702x Series

digital and analog sections, as illustrated in Figure 41c.

In all of these scenarios, and in more complicated real-life

applications, keep in mind the flow of current from the supplies

and back to ground. Make sure the return paths for all currents

are as close as possible to the paths the currents took to reach

their destinations. For example, do not power components on

the analog side of Figure 41b with IOV

return currents from IOV

to avoid digital currents flowing under analog circuitry, which

could happen if the user placed a noisy digital chip on the left

half of the board in Figure 41c. Whenever possible, avoid large

discontinuities in the ground plane(s) (such as are formed by a

long trace on the same layer), since they force return signals to

travel a longer path. And of course, make all connections to the

ground plane directly, with little or no trace separating the pin

from its via to ground.

If the user plans to connect fast logic signals (rise/fall time < 5

ns) to any of the ADuC702x’s digital inputs, add a series

resistor to each relevant line to keep rise and fall times longer

than 5 ns at the ADuC702x input pins. A value of 100Ω or

200Ω is usually sufficient to prevent high speed signals from

coupling capacitively into the ADuC702x and affecting the

accuracy of ADC conversions.

CLOCK OSCILLATOR

The clock source for the ADuC702x can be generated by the

internal PLL or by an external clock input. To use the internal

PLL, connect a 32.768kHz parallel resonant crystal between

PLACE ANALOG

COMPONENTS

COMPONENTS HERE

PLACE ANALOG

COMPONENTS

HERE

AGND

HERE

Figure 41:. System grounding schemes

GND

to flow through AGND. Also, try

COMPONENTS HERE

PLACE DIGITAL

COMPONENTS

PLACE DIGITAL

COMPONENTS

HERE

since that would force

HERE

DGND

Rev. PrA | Page 74 of 78

XCLKI and XCLKO and connect a capacitor from each pin to

ground as shown Figure 42 This crystal allows the PLL to lock

correctly to give a frequency of 45.088MHz. If no external

crystal is present, the internal oscillator will be used to give a

frequency of 45.088MHz ±5% typically.

To use an external source clock input instead of the PLL, bit 1

and bit 0 of PLLCON must be modified. The external clock

uses pin 17, XCLK.

Whether using the internal PLL or an external clock source, the

ADuC702x’s specified operational clock speed range is 50kHz

to 20MHz to ensure correct operation of the analog peripherals

and Flash/EE.

POWER-ON RESET OPERATION

An internal POR (Power-On Reset) is implemented on the

ADuC702x. For LV

the ADuC702x in reset. As LV

timer will time out for typically 128 ms before the part is

released from reset. The user must ensure that the power

supply IOV

time. Likewise on power-down, the internal POR will hold the

ADuC702x in reset until LV

Figure 44 illustrates the operation of the internal POR in detail.

Figure 42: external parallel resonant crystal connections

12pF

EXTERNAL

SOURCE

CLOCK

32.768kHz

Figure 43:connecting an external clock source

has reached a stable 2.7 V minimum level by this

Preliminary Technical Data

XCLKI

XCLKO

XCLK

XCLKI

below 1.98 V, the internal POR will hold

rises above 1.98 V, an internal

has dropped below 1.98V.

ADuC7026

TO FREQUENCY

DIVIDER

TO INTERNAL

PLL

ADUC702X_1 AD [Analog Devices], ADUC702X_1 Datasheet - Page 74

ADUC702X_1

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