SUPERPRO 5000 Xeltek, SUPERPRO 5000 Datasheet - Page 82

PROGRAMMER UNIV STANDALONE W/USB

SUPERPRO 5000

Manufacturer Part Number
SUPERPRO 5000
Description
PROGRAMMER UNIV STANDALONE W/USB
Manufacturer
Xeltek
Series
SuperPro 5000r
Type
Universal, Stand Aloner
Datasheet

Specifications of SUPERPRO 5000

Contents
Programmer, Power Supply Adapter, Software, Cables and Documentation
Ic Product Type
Programmer, Universal
Ic Interface Type
USB
No. Of Devices Supported
41848
Kit Contents
Programmer W/ A DIP48 Adapter, AC Adapter, Software CD, USB2.0 Cable, And User's Manual
Rohs Compliant
Yes
For Use With/related Products
E/EPROM, FLASH, PLD, Micros and more listed on Device Sheet. 44,000+ Devices Supported.
For Use With
415-1037 - SOCKET ADAPTER 32PLCC SUPERPRO5K415-1045 - SOCKET ADAPTER 84PLCC SUPERPRO5K415-1044 - SOCKET ADAPTER 28SOIC SUPERPRO5K415-1043 - SOCKET ADAPTER 28SSOP SUPERPRO5K415-1042 - SOCKET ADAPTER 56TSOP SUPERPRO5K415-1041 - SOCKET ADAPTER 40TSOP SUPERPRO5K415-1040 - SOCKET ADAPTER 16SOP SUPERPRO5K415-1039 - SOCKET ADAPTER 48TSOP SUPERPRO5K415-1038 - SOCKET ADAPTER 44PLCC SUPERPRO5K
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Other names
415-1036
Program Two or More Files to One Chip
You can load several files into the buffer and write them to the chip. The following
explanation gives an example of programming three files (Sample1, Sample2, and
Sample3) to one chip. The example assumes the following:
Superpro
2. Based on the byte (8‐bit), divide the file into four parts by address of the first
3. Based on the word (16‐bit), divide the file into two parts by address of the first
1. Select Edit from the Buffer menu. Make sure that the Buffer clear on data load
2. Select Load from the File menu to load the Sample1 file.
Program the two parts into two chips respectively.
When loading the file, select Even as the File Mode to write the data in the
addresses 0,2,4,6, etc. to one chip. Select Odd as the File mode to write the data
at the address 1,3,5,7, etc. to the other chip.
byte, the second byte, the third byte and the fourth byte out of every four bytes.
Program the four parts to four chips respectively.
When loading the file, select the 1
in the addresses 0, 4, 8, 12 (or C if HEX), etc. to one chip. Then select 2
of 4, 3
other three chips.
two bytes and the last two bytes out of every four bytes. Program the two parts
to two chips respectively.
When loading the file, select the 1
the data in the addresses 0, 1, 5, 6, etc. to one chip. Then select 2
to write the remaining data to the other chip.
Write the data from the address 200 (Hex) of the file Sample1 to the address 0
of the chip. 
Write the data from the address 0 (Hex) of the file Sample2 to the address 3000
(Hex) of the chip. 
Write the data from the address 4000 (Hex) of the file Sample3 to the address
4000 (Hex) of the chip. 
option is not checked.
In the Buffer Address field, enter 0. 
In the File Address field, enter 200. 
®
rd
5000 User’s Guide
byte of 4, and finally 4
th
st
st
byte of 4 to write the remaining data to the
2_type of 4 as the File Mode to write
byte of 4 as the File Mode to write the data
nd
_byte of 4
nd
byte
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