![]() |
![]() |
![]() |
![]() |
![]() |
![]() |
![]() |
![]() |
![]() |
![]() |
| The EPROM+ programming system is designed to support a wide variety of programmable devices from many different manufacturers. Due to the number of device manufacturers, the catagories below are organized by technology family and device pin count. The listed device numbers conform to the core numbers used by most industry standard parts. Since the individual listing of every part number from every manufacturer creates a prohibitively large list, we list all supported manufacturers in a separate table with core part numbers arranged by technology family and pin count where applicable. This approach allows you to more easily locate a device number, as many users do not know the manufacturer of the device in which they have interest. If you are uncertain about support for a specific part, please don't hesitate to contact us by phone, fax or email. Our site also contains general information about eproms and other device technologies. |
| WHAT IS A CORE PART NUMBER? A core part number is a number which identifies a device regardless of the manufacturer. The core number is normally easy to determine and serves as the industry standard description for nearly all common programmable devices with multiple manufacturers. The example below describes how to determine a typical core part number. Remember, a core part number usually represents hundreds of actual part numbers due to different manufacturers, speeds, temperatures, package types and other chip characteristics. The devices on the right are 2764 eproms from five different manufacturers. | ![]() |
| CORE PART NUMBER DETERMINATION EXAMPLE: The images on the right are close-up views of the first three eproms shown above. The CORE part number for each device is 2764. Each 2764 has the manufacturers full part number printed on the device. The CORE part number is easily identified and has been hi-lited. CORE part numbers are easily discerned once you exclude any prefix or suffix characters. Most devices, regardless of the technology family, can be identified by their CORE part number. |
|
| ACT | AMI | ALLIANCE | AMD |
| AMIC | ANACHIP | ASD | ATMEL |
| BMI | CATALYST | CSi | CERAMATE |
| CYPRESS | DALLAS | EON | ESI |
| EXEL | FAIRCHILD | FUJITSU | GI |
| HITACHI | HOLTEK | HYNIX | HYUNDAI |
| ICSI | ICT | INTEL | ISSI |
| MACRONIX | MAXIM | MICROCHIP | MICRON |
| MITSUBISHI | MOSEL | MOTOROLA/FREESCALE | NATIONAL |
| NEC | NEXFLASH | PHILIPS | PMC |
| RAMTRON | ROCKWELL | ROHM | SAMSUNG |
| SANYO | SEEQ | SEIKO | SGS-THOMSON (ST) |
| SHARP | SIEMENS | SIGNETICS | SIMTEK |
| SPANSION | SST | SYNCMOS | TEMIC |
| TURBO IC | WINBOND | XICOR | ZILOG |
These devices are known as first generation because they were the first standard eproms available to engineers. These parts, which require multiple voltages to operate (+5, -5, +12), first became available in the late 1970's and were extremely common in microprocessor equipment designs until the mid 1980's. Although not used in new designs, these parts are still commonly found in older products and equipment. (* adapter required)
These devices are known as second generation because they represent a fundamental change in the eprom manufacturing process. These devices only require a single (+5) volt power supply to operate and therefore quickly replaced the first generation parts in new designs. These parts appeared in the mid to early 1980's and most are still manufactured today. (* adapter required)
|
|
|
|
Flash eproms represent the most current eprom technology. They are single supply (3 or 5 Volt) parts which can be electrically erased and therefore do not have a window. (additional information)
![]() |
![]() |
![]() |
![]() |
![]() |
![]() |
| NO ADAPTER REQD | NO ADAPTER REQD | VIEW ADAPTER | VIEW ADAPTER | VIEW ADAPTER | VIEW ADAPTER |
|
|
|
|
|
EEPROMS
(Additional
information about this technology family)
|
|
|
(Additional information about this technology family)
![]() |
![]() |
![]() |
![]() |
|
|
|
|
NOTE: Under this catagory the EPROM+ system also supports battery backed memory cartridges and assemblies based on the 6264 RAM.
SERIAL EEPROMS* (8 PIN)
(Additional
information about this technology family)
| Microwire series | I2C bus series | SPI bus series | OTHER | FPGA configurators |
| 9306 93C06 93C13 93C14 9346 93AA46 93C46 93C46-8BIT 93LC46 93LC46A 93LC46B 93CS46 93S46 93AA56 93C56 93C56-8BIT 93LC56 93LC56A 93LC56B 93C56 93LC56 93CS56 93S56 93C57 93CS57 93AA66 93C66 93C66-8BIT 93LC66 93LC66A 93LC66B 93CS66 93S66 93AA76 93C76 93AA86 93C86 93C86-8BIT 93LC86 |
24AA00 24C00 24LC00 24W00 X24C00 2401 24AA01 X24C01 24C01 24LC01 24W01 2402 24AA02 24C02 AT24C02 24LC02 24W02 2404 24AA04 24C04 AT24C04 24LC04 24W04 2408 24AA08 24C08 24LC08 AT24C08 24W08 2416 24AA16 24C16 AT24C16 FM24CL16 24LC16 24E16 24W16 24C17 24U17 24C21 24LC21 2432 24AA32 24C32 24LC32 AT24C32 24E32 24W32 24C44 24H45 2464 24AA64 24C64 24LC64 AT24C64 24E64 24W64 24C65 24LC164 24LC174 24128 24AA128 24C128 24LC128 24E128 24W128 24256 24AA256 24C256 24LC256 24E256 24W256 24512 24AA512 24C512 24LC512 24E512 24W512 24E256 PCD8572 85C72 85C82 85C92 |
25010 25AA010 25C010 25LC010 25020 25AA020 25C020 25LC020 25040 25AA040 25C040 25LC040 25080 25AA080 25C080 25LC080 25160 25AA160 25C160 25LC160 25320 25AA320 25C320 25LC320 25640 25AA640 25C640 25LC640 25128 25AA128 25C128 25LC128 25256 25AA256 25C256 25LC256 25HP256 25512 25AA512 25C512 25LC512 25HP512 25P05 25P10 25P20 25P40 25P80 35080 95010 95020 95040 95080 95160 95320 95640 95128 95256 95P08 FM25160 |
33C102 35C102 33C104 35C104 33C108 35C108 35080 80011A 16811 16812 16911 16912 59C11 59C13 59C22 CXK1011 CXK1012 CXK1013 CXK1023 CXK1024 ER1400* LC46* L46R L56R L66R RA46 RA56 RA66 RL46 RL56 RL66 M58657* S130 S220 S330 SL221 VD202 TC89101 TC89201 TC97101 95P08 |
17C65 17C128 17C256 |
(Additional information about this technology
family)
| 74S FAMILY | 82S FAMILY |
| 74S188 74S288 74S287 74S387 74LS471 74S472 74S473 74S474 74S475 74S478 74S479 74S570 74S572 74S573 |
82S23 82S123 82S126 82S129 82S130 82S131 82LS135 82S136 82S137 82S140 82S141 82S146 82S147 82S180 82S181 82S184 82S185 82S190 82S191 |
(Additional information about this technology
family)
(Specific
information about support for the 68HC11 family)
![]() |
![]() |
![]() |
![]() |
![]() |
![]() |
| MOTOROLA (68705/HC05/HC08) |
MOTOROLA (68HC11 FAMILY) ACOM1* ACOM2* |
80/87 SERIES | 89/89C/89S SERIES |
PIC
FAMILY (10F/12C/12F/16C/16F)* |
ATMEL AVR (90S FAMILY)* |
OTHER* | ||
| 68705P3* 68705U3* 68705R3* 68705U5* 68HC05 (eeprom)* 68HC05B16* 68HC705 (eprom)* 68HC705C8* 68HC08AS20* 68HC08AS32* 68HC908AS32* 68HC08AS60* 68HC908AS60* |
68HC711D3* 68HC711E9 689HC711EA9 68HC11A0 68HC11A1 68HC11A8 68HC11E0 68HC11E9 68HC11E20 68HC711E20 68HC811E2 68HC11F1 68HC11K4 68HC711K4 68HC11KA1 68HC11KA2 68HC11KA3 68HC11KA4 68HC11L6 68HC11P2 68HC711P2 68HC11PH8 68HC711PH8 |
8041* 8042* 8048* 8049* 8741* 8741H* 8742* 8742H* 8748* 8748H* 8749* 8749H* 8751* 8751H* 8751BH* 87C51* 87C51FA* 87C51FB* 87C51FC* 8752* 8752B* 8753* 8754* 87C520* 87C530* 87C528* 87C550* 87C575* 87C652* 87C750* 87C751* 87C752* |
AT89C51* AT89LV51* AT89C52* AT89LV52* AT89C55* AT89C55WD* AT89C1051* AT89C2051* AT89C4051* AT89S8252* AT89S8253* AT89S51* AT89S52* AT89S53* SST89C54* SST89C58* SST89C59* SST89F54* SST89F58* |
|
ATTiny12 90S1200 90S2313 90S2323 90S2343 90S4414 90S8515 |
Z86E02 Z86E04 Z86E08 Z86E21 Z86E33 Z86E43 TMS7742 DS5000T |