Versions Compared

Key

  • This line was added.
  • This line was removed.
  • Formatting was changed.

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...

...


Tip
titleThis page is live!

Please come back soon to see what progress has been made

Table of Contents

Introduction

It has been around seven years since the current Flash card was designed. At that time it was done in a rush, without much research, as the AMD 1M chip was being withdrawn and the footprint for that device needed to be changed. As the footprint was a lot smaller, there was enough space on the PCB to add a 512K Flash and 1M RAM. The cost of manufacturing a PCB is based on the size of the card, if the 512K/512 Flash/RAM configuration worked or not, the cost would have been the same (although the workload in the design would have been a lot less!).

By a sheer coincidence, OZ 4.x was being developed at the same time and it was found that the INTEL chip could not run OZ 4.x but it could be used for storing files. What was NOT realised at that time was that the AMD 1M Flash chip, although was a lot better, it could also fail, when running OZ. This was not discovered until quite recently.

AMIC announced that the 512K Flash chip used was no longer being manufactured. That triggered this section to be written.

The purpose of this section is to compare the original 5v Flash chips with the 3.3v versions and to ensure that the next version addresses any outstanding issues.

Latest NEWS

DateFrom
24/02/17 AMIC Technology

We are designing a successor for the A29040C called A29040D. This part will become available in Q2.
Its pin out , form factor and programming ID will be identical to its predecessor. So any design around the A29040C will be suitable for the A29040D.

In case you consider the 3 volt option we advise A29L040B which is also in design and will be released in Q3 this year.

All these new designs are necessary to transfer to new wafer processes allowing long term availability.
In either case we look forward to supply your design.

With best regards,

Rob
Mob: +31-6-531.589.49 – Desk +31-321-313.719 -- Skype:amicrobstuart -




Design Considerations

First all the signals from/to the Z88 need to be converted 

Level Conversion

4 x GTL2003

1234567891011121314


GTL2003PW,118
 TSSOP-20
8bit Bi-Directional
GTL2003PW,118
 TSSOP-20
8bit Bi-Directional

NOT
REQUIRED 

A16A15A12A7A6A5A4A3A2A1A0D0D1D2SNSLGNDGND
1234567891011121314151617


15


1617181920212223242526272829303132

NOT REQUIRED
GTL2003PW,118
 TSSOP-20
8bit Bi-Directional
GTL2003PW,118
 TSSOP-20
8bit Bi-Directional
A14VPPVCCVCC/WEA13A8A9A11/POE/ROEA10/CED7D6D3D4D5A17A18A19
181920212223242526272829303132333435363738

Comparing Spansion S29AL008J with Am29F080 1M Flash

General Features

Type / FunctionAm29F080S29AL008J
VCC Voltage Range
2.7V ~ 3.6V
Access Time
55ns / 70ns
Bus Width
X8 / x16
Boot Block
Top/Bottom
Sector Architecture
16KB+ 2*8KB+32KB
+ 15*64KB sectors 
OTP Security Region
256Byte
CFI Compliant
Yes
Sector Protect/Unprotect
Yes


Yes


Yes


Yes


Yes


01h




TSOP pinouts

Am29F800B

48 pin TSOP

Am29F080B

40 pin TSOP

A29040BV

32 pin TSOP

A29040BV

32 pin TSOP

Am29F080B

40 pin TSOP

Am29F800B

48 pin TSOP

S29AL008J

48 pin TSOP

A15

    

A16


A14

A19  NC

BYTE#


A13

A18  NC

VSS 


A12

A17  

WE#

DQ15/A-1


A11

A16  

OE#

DQ7


A10

A15A11OE#

RY/BY#

DQ14


A9

A14

A9A10

DQ7

DQ6


A8

A13

A8CE#

DQ6

DQ13


NC 

A12

A13I/O7

DQ5

DQ5


NC 

CE#

A14I/O6

DQ4 

DQ12


WE#

VCC

A17I/O5

VCC

DQ4


RESET#

NC

WE#

I/O4

VSS

VCC


NC

RESET#

VCC

I/O3

 VSS

DQ11


NC

A11

A18VSS

DQ3 

DQ3


RY/BY#

A10

A16I/O2

DQ2

DQ10


A18

A9

A15I/O1

DQ1 

DQ2


A17

A8

A12I/O0DQ0 

DQ9


A7

A7

A7A0A0

DQ1


A6

A6

A6A1A1

DQ8


A5

A5

A5A2A2

DQ0


A4

A4

A4

A3A3

OE#


A3

    

VSS


A2

    

CE#


A1

    

A0


...

 DevicePackageManufacturerSectors 
AM29F800BB-55EF48-Pin TSOPSPANSION

64 Kbyte

sectors

 

 

Spansion are putting their 1M AMD Flash chips on End of Life EOL.

...

AMIC may have had some 5v replacements A29800, A29801 these are no longer available.

The package is slightly larger, they do not fully match.

Once stocks of the Am29F080B device are depleted, there is no replacement.

512K Flash 5v

The following device is available 23/02/17


DevicePackageManufacturerSectors

Image Modified

SST39SF040-70-4C-NHEPLCCMICROCHIP4
Kbyte

sectors

NOTE: The Z88 will not be able to program this chip due to the 4 Kbyte sectors. It may be programmed with an external programmer.

...

 DevicePackageManufacturerSectors 
A29040C-55FDIP 32AMIC

64 Kbyte
sectors

 


A29040CL-55FPLCCAMIC

64 Kbyte
sectors

 

The following devices were available 27/07/2013

 DevicePackageManufacturerSectors 
A29040B-70FDIP 32AMIC

64 Kbyte

sectors

 
A29040BL-70FPLCCAMIC

64 Kbyte

sectors

 
A29040BV-70F32 TSOPAMIC

64 Kbyte

sectors

 
AM29F040B-55JFPLCCSPANSION

64 Kbyte

sectors

 
AM29F040B-90JFPLCCSPANSION

64 Kbyte

sectors

 
A29L040L-70FPLCCAMIC

64 Kbyte

sectors

 
SST39SF040-70-4C-NHEPLCCMICROCHIP

Uniform

4KByte

sectors

 
SST39SF040-70-4I-NHEPLCC 

Uniform

4KByte

sectors

 
SST39SF040-70-4I-WHE32 TSOP 

Uniform

4KByte

sectors

 

...

 DevicePackageManufacturerSectors 
A29010L-70FPLCCAMIC

64 Kbyte

sectors

 
A29010V-70F32 TSOPAMIC

64 Kbyte

sectors

 
AM29F010B-70JFPLCCSPANSION

64 Kbyte

sectors

 
SST39SF010A-70-4C-NHEPLCCMICROCHIP

Uniform

4KByte

sectors

 
SST39SF010A-70-4C-WHE32 TSOPMICROCHIP

Uniform

4KByte

sectors

 
SST39SF010A-70-4I-NHEPLCCMICROCHIP

Uniform

4KByte

sectors

 
SST39SF010A-70-4I-WHE32 TSOPMICROCHIP

Uniform

4KByte

sectors

 
SST39SF010A-70-4C-PHEDIP 32MICROCHIP

Uniform

4KByte

sectors

 

Conclusion

...