YW80C188EC20 Intel, YW80C188EC20 Datasheet - Page 29

YW80C188EC20

Manufacturer Part Number

YW80C188EC20

Description

IC MPU 16-BIT 5V 20MHZ 100-SQFP

Manufacturer

Intel

Datasheet

1.SB80L188EC16.pdf (57 pages)

Specifications of YW80C188EC20

Processor Type

80C188

Features

EC suffix, 16-Bit, Extended Temp

Speed

20MHz

Voltage

Mounting Type

Surface Mount

Package / Case

100-SQFP

Family Name

Intel186

Device Core

8088

Device Core Size

16b

Frequency (max)

20MHz

Supply Voltage 1 (typ)

Operating Supply Voltage (max)

5.5V

Operating Supply Voltage (min)

4.5V

Operating Temp Range

0C to 70C

Operating Temperature Classification

Commercial

Mounting

Surface Mount

Pin Count

100

Package Type

SQFP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

864139

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

BOSTOCK HK LIMITED

Part Number:

YW80C188EC20

Manufacturer:

Intel

Quantity:

10 000

Current page: 29 of 57
Download datasheet (2Mb)

The I

two components

1 I

2 I

Where

Measuring C

would be difficult Instead C

the above formula with I

known V

user can calculate I

within the specified operating range

Example Calculate typical I

NOTES

1 Maximum C

(or Idle Mode) Due to tester limitations CLKOUT and OSCOUT also have 50 pF loads that increase I

2 Typical C

nal device leakage Measured with all inputs at

either V

discharge internal parasitic capacitance when

changing logic levels I

frequency of operation and the device supply

voltage (V

CCS

DEV

CPD

CPD (Idle Mode)

versus Frequency and Voltage

Operating Frequency

Parameter

Supply Voltage (V

consumed by the processor is composed of

0 1 mA

56 2 mA

The quiescent current that represents inter-

The switching current used to charge and

Device Capacitance

Power

and frequency Using the C

is calculated at 25 C assuming no loads on CLKOUT or OSCOUT and the device in reset (or Idle Mode)

or ground and no clock applied

CCS

is measured at

) I

on a device like the 80C186EC

5 2V

CCS

at any voltage and frequency

is given by the formula

0 77

CCS

)

DEV

14 MHz

is related to both the

40 C with all outputs loaded as specified in the AC test conditions and the device in reset

values measured at

at 14 MHz 5 2V V

is calculated using

DEV

Typical

0 77

0 55

value the

PDTMR Pin Delay Calculation

The PDTMR pin provides a delay between the as-

sertion of NMI and the enabling of the internal

clocks when exiting Powerdown Mode A delay is

required only when using the on chip oscillator to

allow the crystal or resonator circuit to stabilize

The PDTMR pin function does not apply when

RESIN is asserted (i e a device reset while in Pow-

erdown is similar to a cold reset and RESIN must

remain active until after the oscillator has stabilized

To calculate the value of capacitor to use to provide

a desired delay use the equation

Where

Example For a delay of 300 s a capacitor value of

Round up to a standard (available) capacitor value

The above equation applies to delay time longer

than 10

tance needed to achieve the desired delay A delay

variance of

temperature

tremes In general higher V

peratures will decrease delay time while lower V

and or higher temperature will increase delay time

Max

1 37

0 96

440

desired delay in seconds

440

capacitive load on PDTMR in microfarads

80C186EC 188EC 80L186EC 188EC

s and will compute the TYPICAL capaci-

(300

voltage

50% to

(5V 25 C)

mA V MHz

Units

NOTE

and device process ex-

25% can occur due to

0 132 F is required

and or lower tem-

by V C F

Notes

1 2

YW80C188EC20 Intel, YW80C188EC20 Datasheet - Page 29

YW80C188EC20

Specifications of YW80C188EC20

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