SUPERPRO3000U-100(ROHS) Xeltek, SUPERPRO3000U-100(ROHS) Datasheet - Page 37

SUPERPRO3000U-100(ROHS)

Manufacturer Part Number

SUPERPRO3000U-100(ROHS)

Description

PROGRAMMER UNIV STANDALONE W/USB

Manufacturer

Xeltek

Series

SuperPro 3000U-100r

Type

Universal, Stand Aloner

Datasheets

1.SUPERPRO580.pdf (31 pages)

2.SUPERPROLXROHS.pdf (58 pages)

3.SUPERPROLXROHS.pdf (475 pages)

4.SUPERPRO3000U-100ROHS.pdf (2 pages)

Specifications of SUPERPRO3000U-100(ROHS)

Contents

Programmer with 48-DIP Pin Socket, AC Adapter, PEP3000 Module, CD, USB Cable, Users Guide and Power Supply

For Use With/related Products

E/EPROM, FLASH, PLD, Micros and more listed on Device Sheet. 44,000+ Devices Supported.

For Use With

415-1029 - SOCKET ADAPTER FOR SDIP42415-1028 - SOCKET ADAPTER FOR TQFP32415-1027 - SOCKET ADAPTER FOR TSOP56415-1025 - SOCKET ADAPTER FOR SOIC20415-1024 - SOCKET ADAPTER FOR TSOP40415-1023 - SOCKET ADAPTER FOR SOP44415-1022 - SOCKET ADAPTER FOR TSOP56415-1019 - SOCKET ADAPTER FOR SOIC16/SOIC8415-1018 - SOCKET ADAPTER FOR SOIC28415-1015 - SOCKET ADAPTER FOR PLCC28415-1014 - SOCKET ADAPTER FOR PLCC20415-1013 - SOCKET ADAPTER FOR PLCC32415-1012 - EXPANDER 100P FOR SUPERPRO3000U415-1017 - SOCKET ADAPTER FOR PLCC44

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

415-1007
SUPERPRO 3000U-100
SUPERPRO 3000U-100(ROHS)

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The last 4 bytes of buffer data is:

FFC: 30 FFD: 30 FFE: 30 FFF: 31

If programming succeeds Operation Info screen displays:

Current AutoIncrement Data = 0002

The last 4 bytes of buffer data is:

FFC: 30 FFD: 30 FFE: 30 FFF: 32

Device

This selection allows users to program only utilize part of the chip, applicable to most E/EPROM (Flash)

device.

For example, MACRONIX MX29F200B TSOP48 is a 16 bit Flash device. Its program zone start and

end address is 0 and 1FFFF (Hex), and data buffer capacity is (1FFFF+1)*2=40000 (Hex,). Since it’s a

16-bit device, data buffer capacity is 2 times of that of the device. The default method is programming

from the start address to the end address. If user only wants to program the chip’s last part, please set the

start address to 10000 (Hex), and remain the end address default value. Thus the data for programming

are the data in data buffer between 20000 (Hex) and 40000 (Hex).

This function not only makes programming more flexible but also saves time under the Production

Mode.

Verify Mode

It is necessary to verify after the programming of a chip. According to the reference to the manufacture,

the requests of VCC voltage for verification are different.

1. Use VCC (+/- 5%) or (+/- 10%) to verify. For example, VCC=5.00V. Use VCC=5.00V to verify once,

or use VCC=4.74V and VCC =5.25V to verify twice (+/- 5%), or use VCC=4.50V and VCC=5.50V to

verify twice (+/- 10%).

2. Use MinVcc and MaxVcc to verify.

Note: The Operation Option will vary with the various devices. i.e. Most SCMs don’t allow user to set

the start and end address of the device.

4.1.4.2 Edit Auto

In the Edit Auto dialogue box, all devices have an Auto option, which is like a batch command. This

function allows the software auto operate in order displayed in the right column. For example, select

SUPERPRO3000U-100(ROHS) Xeltek, SUPERPRO3000U-100(ROHS) Datasheet - Page 37

SUPERPRO3000U-100(ROHS)

Specifications of SUPERPRO3000U-100(ROHS)

Related parts for SUPERPRO3000U-100(ROHS)