ELANSC400-66AI AMD (ADVANCED MICRO DEVICES), ELANSC400-66AI Datasheet - Page 89

ELANSC400-66AI

Manufacturer Part Number

ELANSC400-66AI

Description

Manufacturer

AMD (ADVANCED MICRO DEVICES)

Datasheet

1.ELANSC400-66AI.pdf (132 pages)

Specifications of ELANSC400-66AI

Cpu Family

Elan

Device Core Size

16/32Bit

Frequency (max)

66MHz

Interface Type

ISA

Program Memory Type

ROMLess

Program Memory Size

Not Required

Number Of Timers - General Purpose

Operating Supply Voltage (typ)

3.3V

Operating Supply Voltage (max)

3.6V

Operating Supply Voltage (min)

Instruction Set Architecture

CISC

Operating Temp Range

-40C to 95C

Operating Temperature Classification

Industrial

Mounting

Surface Mount

Pin Count

292

Package Type

BGA

Lead Free Status / Rohs Status

Not Compliant

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Part Number:

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Manufacturer:

AMD

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DERATING CURVES

This section describes how to use the derating curves

on the following pages to determine potential specified

timing variations based on system capacitive loading.

The Pin State Tables beginning on page 42 in this doc-

ument have a column named “Max Load.” This column

describes the specification load presented to the spe-

cific pin when testing was performed to generate the

timing specification documented in the AC Characteris-

tics section of this data sheet.

For example, to find out the effect of capacitive loading

on a DRAM specification such as MWE hold from CAS

Low, first find the specification load for MWE from

Table 7 on page 44. The value here is 70 pF. Note the

output drive type is programmable to C, D, or E. For

this example, assume a drive strength of D, a system

DRAM interface of 3.3 V, and a system load on the mi-

crocontroller’s MWE pin of 90 pF.

Figure 16. 3.3-V I/O Drive Type B Rise Time

100

Figure 14. 3.3-V I/O Drive Type A Rise Time

Load (pF)

Élan™SC400 and ÉlanSC410 Microcontrollers Data Sheet

100

120

140

160

Referring to Figure 20, 3.3-V I/O Drive Type D Rise

Time, on page 90, a time value of approximately 8.1 ns

corresponds to a capacitive load of 70 pF.

Also referring to Figure 20, a time value of approxi-

mately 10 ns corresponds to a capacitive load of 90 pF.

Subtracting 8.1 ns from the 10 ns, it can be seen that

the rise time on the MWE signal will increase by 1.9 ns.

Therefore, the MWE hold from CAS Low (min) param-

eter will increase from 30 ns to 31.9 ns (30 ns +1.9 ns).

If the capacitive load on MWE had been less than 70

pF, the time given in the derating curve for the load

would be subtracted from the time given for the speci-

fication load. This difference can then be subtracted

from the MWE hold from CAS Low (min) parameter to

determine the derated AC timing parameter.

Figure 17. 3.3-V I/O Drive Type B Fall Time

Figure 15. 3.3-V I/O Drive Type A Fall Time

100

Load (pF)

100

120

140

160

ELANSC400-66AI AMD (ADVANCED MICRO DEVICES), ELANSC400-66AI Datasheet - Page 89

ELANSC400-66AI

Specifications of ELANSC400-66AI

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