AM486DX5-133V16BHC AMD (ADVANCED MICRO DEVICES), AM486DX5-133V16BHC Datasheet - Page 13

AM486DX5-133V16BHC

Manufacturer Part Number

AM486DX5-133V16BHC

Description

Manufacturer

AMD (ADVANCED MICRO DEVICES)

Datasheet

1.AM486DX5-133V16BHC.pdf (66 pages)

Specifications of AM486DX5-133V16BHC

Family Name

Am486

Device Core Size

32b

Frequency (max)

133MHz

Instruction Set Architecture

RISC

Supply Voltage 1 (typ)

3.3V

Operating Supply Voltage (max)

3.6V

Operating Supply Voltage (min)

Operating Temp Range

0C to 85C

Operating Temperature Classification

Commercial

Mounting

Surface Mount

Pin Count

208

Package Type

SQFP

Lead Free Status / Rohs Status

Not Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

AM486DX5-133V16BHC

Manufacturer:

AMD

Quantity:

5 510

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

AM486DX5-133V16BHC

Manufacturer:

AMD

Quantity:

624

Company:

BOSTOCK HK LIMITED

Part Number:

AM486DX5-133V16BHC

Manufacturer:

AMD

Quantity:

650

Company:

BOSTOCK HK LIMITED

Part Number:

AM486DX5-133V16BHC

Manufacturer:

AMD

Quantity:

1 000

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

AM486DX5-133V16BHC/W

Manufacturer:

AMD

Quantity:

5 510

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

AM486DX5-133V16BHC/W

Manufacturer:

NXP

Quantity:

5 510

Current page: 13 of 66
Download datasheet (2Mb)

cessor is driving the bus. BREQ is active High and is

floated only during three-state Test mode (see FLUSH).

BS8/BS16

Bus Size 8 (Active Low; Input)/

Bus Size 16 (Active Low; Input)

The BS8 and BS16 signals allow the processor to op-

erate with 8-bit and 16-bit I/O devices by running multiple

bus cycles to respond to data requests: four for 8-bit

devices, and two for 16-bit devices. The bus sizing pins

are sampled every clock. The microprocessor samples

the pins every clock before RDY to determine the ap-

propriate bus size for the requesting device. The signals

are active Low input with internal pull-up resistors, and

must satisfy setup and hold times t

operation. Bus sizing is not permitted during copy-back

or write-back operation. BS8 and BS16 are ignored dur-

ing copy-back or write-back cycles.

CACHE

Internal Cacheability (Active Low; Output)

In Write-through mode, this signal always floats. In

Write-back mode for processor-initiated cycles, a Low

output on this pin indicates that the current read cycle

is cacheable, or that the current cycle is a burst write-

back or copy-back cycle. If the CACHE signal is driven

High during a read, the processor will not cache the data

even if the KEN pin signal is asserted. If the processor

determines that the data is cacheable, CACHE goes

active when ADS is asserted and remains in that state

until the next RDY or BRDY is asserted. CACHE floats

in response to a BOFF or HOLD request.

CLK

Clock (Input)

The CLK input provides the basic microprocessor timing

signal. The CLKMUL input selects the multiplier value

used to generate the internal operating frequency for

the Enhanced Am486DX microprocessors. All external

timing parameters are specified with respect to the rising

edge of CLK. The clock signal passes through an inter-

nal Phase-Lock Loop (PLL).

CLKMUL

Clock Multiplier (Input)

The microprocessor samples the CLKMUL input signal

at RESET to determine the design operating frequency.

Table 2 shows the effects CLKMUL has on system con-

figurations for various Enhanced Am486DX micropro-

cessors.

Enhanced Am486DX Microprocessor Family

and t

P R E L I M I N A R Y

for correct

2x indicates that the CPU runs at twice the system bus speed.

3x indicates that the CPU runs at three times the system bus speed.

4x indicates that the CPU runs at four times the system bus speed.

D31

Data Lines (Inputs/Outputs)

Lines D31–D0 define the data bus. The signals must

meet setup and hold times t

operations. These pins are driven during the second

and subsequent clocks of write cycles.

D/C

Data/Control (Output)

This bus cycle definition pin distinguishes memory and

I/O data cycles from control cycles. The control cycles

are:

DP3

Data Parity (Inputs/Outputs)

Data parity is generated on all write data cycles with the

same timing as the data driven by the microprocessor.

Even parity information must be driven back into the

microprocessor on the data parity pins with the same

timing as read information to ensure that the processor

uses the correct parity check. The signals read on these

pins do not affect program execution. Input signals must

meet setup and hold times t

be connected to V

tems not using parity. DP3–DP0 are active High and are

driven during the second and subsequent clocks of write

cycles.

EADS

External Address Strobe (Active Low; Input)

This signal indicates that a valid external address has

been driven on the address pins A31–A4 of the micro-

processor to be used for a cache snoop. This signal is

recognized while the processor is in hold (HLDA is driv-

en active), while forced off the bus with the BOFF input,

or while AHOLD is asserted. The microprocessor ig-

nores EADS at all other times. EADS is not recognized

if HITM is active, nor during the clock after ADS, nor

during the clock after a valid assertion of EADS. Snoops

to the on-chip cache must be completed before another

snoop cycle is initiated. Table 3 describes EADS when

first sampled. EADS can be asserted every other clock

cycle as long as the hold remains active and HITM re-

Am486DX2-66

Am486DX4-100

Am486DX5-133

Interrupt Acknowledge

Halt/Special Cycle

Code Read (instruction fetching)

Processor

–

DP0

Table 2. CLKMUL Settings

CLKMUL=1

Undefined

through a pull-up resistor in sys-

and t

. DP3–DP0 should

for proper read

CLKMUL=0

Undefined

AM486DX5-133V16BHC AMD (ADVANCED MICRO DEVICES), AM486DX5-133V16BHC Datasheet - Page 13

AM486DX5-133V16BHC

Specifications of AM486DX5-133V16BHC

Available stocks

Related parts for AM486DX5-133V16BHC