USB Universal Programmer TL866CS Support 13000 ICs EPROM CPLD MCU + 5pcs Adapter
If you want to get more precise details about TL866 programmer, please click the following link to see the two great videos made by one of our UK customers, Trevor. Thank you very much for his sincere and selfless help.
Software Download
Support list
http://youtu.be/La8T5b3m4NE Software video
http://youtu.be/vnPEyM1yLrk Un-boxing video
Package includes:
1X TL866CS Programmer with High Quality 40pin ZIF
1X USB Cable (for both power supply and data communication)
1X Installation CD with latest MiniPro software & PDF manual
1X PLCC32-DIP32 socket adapter
1X PLCC44-DIP44 socket adapter
1X 8SOP8 to DIP8 adapter (150mil)
1X 8SOP8 to DIP8 adapter (200mil)
1X PLCC IC extractor
Performance?
Well-designed cheap professional programmer, Production of high-density SMD technology, a unified user interface, easy to use, fully functional, reliable program running of application software, ultra-small code?runs faster, supports bilingual(English and Chinese), it can automatically identify the operating system to install and run under WIN 2000/WIN XP/WIN 2003/WIN 2008/WIN VISTA/WIN7.
Note: The following performance list
?The great part of other development programmers are not comparable to its functions?that is not easy to reach.
?High Speed Programming?This programmer has Built-in MCU with high-performance and high-capacity USB interface ?at the communication speed of 12Mbps? being in line with ( For each chip) well-designed programming algorithm and USB high-speed communications. It may be one of the fastest integrated development programmers, the speed has been met the needs of small-quantity efficient production.
Compared to similar products, some chips' programming speed is several times faster, even more than 10 times. For 4Mbits parallel FLASH ROM, the upgrade programmer (Version 3.01 or above) takes only about 35 seconds to finish programming (the total time of erase, write, verify). It only takes about 32 +79 seconds to read and write a 32MB TE28F320. In most cases, the parallel flash chip can be programmed at the same time it can be verified. The programming will be immediately stopped if there is an error. It only takes about 12 sec (read) +18 sec (write) to read and write an 8 Mbits of serial 25P80. It only takes about 98 sec +160 sec to read and write a chip of 64MB capacity. It supports common 8-PIN and 16-PIN 25 series chip with large capacity.
Note: 16MB or larger capacity flash chip cannot be programmed by general programmers because of programming speed, while the TL866 programmer can widely support 64MB Serial and parallel series of chips to 48PIN. It provides with the remarkable quality that is distinct from other common programmer.
? support a wide range of chips: All kinds of 26, 27, 28, 29, 37, 39, 49, 50 parallel ROM, EPROM, EEPROM, 24, 25, 35, 85, 93, 95 Series EEPROM, Serial parallel ROM chips, fully supporting to the 48-PIN chips of 64Mbits capacity. It also supports a variety of models of 51 series of microcontroller, AVR microcontroller, including ATMEGA series, ATtiny Series, AT90XXX Series MCU, MICROCHIP PIC10 PIC12 PIC16 PIC18 MCU, programming of GAL programmable logic device, SRAM test, 54/74 and CMOS4000 series IC comprehensive function tests. At present, it can actually program more than 12000 chips. More chips will be supported in the process of the future upgrade.
---View: Click here to view the chip supporting list
?Unique ultra-low power: The whole programmer is equipped with the ultra-low power chips and it is furnished with electricity via USB Interface. It is the first comprehensive programmer to program all the chips without an external power supply. Their own power consumption is less than 20mA (it is 7mA when the programmer is not programming, LED power indicator use largest electricity, 5mA each one) and Programming power loss rate is less than 20% so that the programmer can supply the high VCC VPP programming electric current. Programmable chip can be provided with enough programming power (the largest programming power output is 2 watts that is impossible for a chip to use 2 watts of programming power). And you hardly feel the heat of the programmer after such long continuous work.
?easily portable performance: This is one of the smallest products in the world and the dimensions are 10CM*6CM*2.5CM (it is as small as a driving license). In addition, you don’t need to carry with an external power supply because of its ultra-low power that makes it more portable.
?Programmable programming power supply: VPP and VCC programming voltages are independently program-controlled: programmable VCC is from 3.3V to 6.5V; VPP is from 3.3V to 21V. The fluctuation of power supply is minor because of the multi-stage LC filter.
?Best overvoltage, overcurrent protection: VCC, VPP power supply of the Programmer is furnished with the independent Grade 3 overcurrent protection and the protection of automatically cutting off power supply. Each pin of 40-pin programming socket has VPP overvoltage protection. It can effectively prevent from putting a chip in the wrong place or short circuit due to other reason. In this programming case, it can also stop VPP high voltage from coming back to the internal of the programmer and damaging the device. Really make sure that the programmer will not be damaged when there is any worst-case short circuit. At the same time, the programmed chip can be efficiently protected.
This programmer will cut off the programming power supply VPP and VCC within 100us and send the message to the application program when there is short circuit. The programmer and PC won't be reset when there is short circuit because of the multilevel overcurrent protection.
? 40PIN universal pin: It is the most versatile pin among 40PIN quasi-universal pins. You don't need to move or turn around the chip when programming, just congruously put the chip forward and the handle direction of the programmer is the PIN1 place. Its design accords with the common operating habit of user.
? This programmer is equipped with upgrading Function of the built-in hardware firmware program that can make sure your programmer's firmware flash and application software can be timely updated. You can complete the upgrade by downloading the upgrading program through the manufacturer's website.
?Second development function of chip serial number?This programmer has a variety of automatic numbering functions that are used commonly. You can get any serial number through DLL Dynamic Link Libraries by using the custom algorithm. In mass production, the function enables each chip to produce only one identifying information that can be encrypted by the custom algorithm. So you can effectively protect your rights as a customer.
?Unique universal serial programming interface ICSP?(Only TL866A can support, TL866CS cannot use this function)
This TL866A programmer can program through the 40-PIN universal socket and is provided with an ICSP serial programming port. For some in-circuit serial programmable chips, you can program MCU by choosing ICSP port. You can get the clear instruction diagram in the programming software for the ICSP port wiring method. That is to say, you can directly program and update the chip soldered on the board.
Note: Now ICSP can in-circuit serial program ATMEL89S51, ATMEL89S52, AT45DBxxx, a whole series of AVR ATMEGAxxx, MICROCHIP PIC10Fxxx 12Fxxx 16Fxxx 18Fxxx, as well as a full serial of SYNCMOS SM59Dxx SM59Rxx. The variety of microcontroller that can be supported in-circuit programming will be continually increased in the future. Six ICSP wires of this programmer, except a ground wire, other wires led full functional I2C, SPI and UART serial main wire, be suitable for all kinds of serial communication. In addition, each wire can supply VCC, VPP or GND with high current.
?superb 54/74F/LS/HC CMOS4000 series IC functional tests: This is the first development programmer to test the common logic integrated circuit and this test can be located the errors of logic gate circuit, as well as test any possible input combinations of integrated circuit.
?Programmer self-testing function: This programmer can test itself on each pin of VPP, VCC, GND and I/O information, at the same time it can run an inside short-circuit test on VPP, VCC current.
?AVR microcontroller one-to-one soft encryption: AVR microcontroller has an RC Calibration (calibrate bytes). Only one of dozens of chips may have the same bytes value and it cannot be modified. Microcontroller software can read this value and determine whether the code is used by other chips. Through custom encryption algorithm, it can stop those who decrypt chips with ulterior motives from directly using. The encryption algorithm is so complex that it is not easy to decrypt. But, about "encryption", there is a problem for developers - each chip is different - it is impossible to manually calculate one by one and respectively compile source code if the algorithm is complex. This programmer can automatically read into RC bytes before programming. The developer can get the bytes value of the chip in the DLL dynamic function and then automatically calculate the encrypted data according to the request and put it in the memory, efficiently completing mass production. (A detailed encrypted instance of the ATMEGA8 in the installation package is available for reference)
?Unified and convenient user interface: The user interface is well-designed and is in complete accord with the operating habit of the Windows series of software. Built-in binary editer is comparable to pure professional editing software. You can directly read, write and modify the files such as BIN format, HEX format, JED format and so on. In addition, it has the complete and practical project mode that makes the mass production more convenient and safer.
The chip supporting range?
?All kinds 26 27 28 29 37 39 49 50 Parallel ROM, EPROM, EEPROM
High-speed and wide-support
It can support TSOP32 TSOP40 TSOP48 chip to 64MBits and the programming speed is 5-10 times as fast as the similar.
?24 25 35 45 85 93 95 Series EEPROM
It can widely support series chips and the 8-16 PIN 25 series chips can be supported to 64MBits capacity.
? Hundreds of the 51 series microcontroller
? AVR microcontroller, including ATMEGA series, ATtiny series, AT90XXX series microcontroller
AVR microcontroller can complete a one-to-one soft encryption by RC calibrating bytes.
It can support high-speed parallel programming and at the same time all AVR ATMEGAxxx chips can be supported SPI series download programming by using ICSP interface.
TQFP64, TQFP100PIN AMEGAxxx chips can be supported.
?Microchip PIC10 PIC12 PIC16 PIC18 Series microcontrollers:
As for PIC series chips, it can support more than 300 models and more than 900 types of packages. It is one of the most comprehensive programmer of supporting PIC chips. For all kinds of PIC chips, it can program with optimization and high speed strictly according to the manufacturer manual. For the majority of chips, it can support ISCP in-circuit programming and at the same time it can program by using programming socket.
? GAL programmable logic device programming
It can support the common PLD device.
? SRAM Test
It can support common 24 61 62 DS12 series SRAM test, respectively data line testing, the address line testing, memory cell incremental testing and unit testing.
? superb performance in 54/74F/LS/HC CMOS4000 series IC comprehensive function test:
This is the first development programmer that can test common logic IC. This test can locate the logic gate errors and get any possible input combinations of IC.
Programmable chips12700 +, the upgrade process will add more chip support.
At present, it can support more than 12700 chips and the types will gradually increase in the future upgrade.
List of common chip programming rate
Here, the real testing programming time that common chips need to spend is listed. These chips are not intended to pick out and you can see the similar chip reference table for the similar. The programming time is proportional to the capacity. That is to say, for the similar chip, the larger capacity the chip has, the more time the programming spends. Compared to similar products, some chips' programming speed is several times faster, even more than 10 times. For 4Mbits parallel FLASH ROM, the upgrade programmer (Version 3.01 or above) takes only about 36 seconds to finish programming (the total time of erase, write, verify). It only takes about 32 +79 seconds to read and write a 32MB TE28F320. In most cases, the parallel flash chip can be programmed at the same time it can be verified. The programming will be immediately stopped if there is an error. It only takes about 12 sec (read) +18 sec (write) to read and write an 8 Mbits of serial 25P80. It only takes about 98 sec +160 sec to read and write a chip of 64MB capacity. It supports common 8-PIN and 16-PIN 25 series chip with large capacity. So the programming speed is far beyond comparison.
Note: 16MB or larger capacity flash chip cannot be programmed by general programmers because of programming speed, while the TL866 programmer can widely support 64MB Serial and parallel series of chips to 48 PIN. It provides with the remarkable quality that is distinct from other common programmer.
Total time = erase time + programming time + check time
The programmer in strict accordance with manufacturers require programming, and will never sacrifice the reliability of the programming in order to improve programming speed.
This programmer can work strictly according to the manufacturer manual and never sacrifice the programming reliability in order to improve programming speed.
Common ROM chip programming time: (Unit: second)
Type
IC
Capacity
Erase
Read / verify
write
Read+write
remarks
27Cxxx
27C512
512Kbits
/
2S
20.8S
22.8S
28PIN
27C010
1Mbits
/
4S
34.2S
38.2S
32PIN
27C1024 16bit
1Mbits
/
4.1S
19.6S
23.7S
40PIN
FLASH 27Cxxx
W27E257
256Kbits
0.1S
1S
10.4S
11.5S
28PIN
SST27SF512
512kbits
0.1S
1.4S
20S
21.5S
28PIN
W27C010
1Mbits
0.2S
2.3S
33.4S
35.9S
32PIN
FLASH EEROM
N28F020
2Mbits
0.6S
3.1
10.7
14.4S
32PIN
AT29C020
2Mbits
0.2S
3.1
10.9
14.2S
W29C020
2Mbits
0.3S
3.1
11S
14.3
AM29F040
4Mbits
7.9S
9.2S
26
43.1S
M29F002
2Mbits
2.5S
4.6S
19.5S
25.6S
SST39SF020
2Mbits
0.4S
3.6S
15.6S
19.6S
AT49F002
2Mbits
1.2S
3.6S
16.4S
11.2S
W39V040AP
4Mbits
0.1S
9.2S
27S
36S
M50FW040
4Mbits
7S
9.2S
25
41.2
INTEL82802AB
4Mbits
4S
9.2S
25S
38
AM29F200
2Mbits
3.7
2.0
8.6
14.3
48PIN
AM29LV160DB
16MBits
27
16
50
83
TE28F320C3B
32Mbits
29
32
79
130
AT48BV8192A
8Mbits
5
8
28
41
Serial EEPROM
24C02
2048bits
/
0.1S
0.3S
0.4S
8-16PIN
AT24C256
256Kbits
/
4.2S
8.2S
12.4S
AT24C512
512Kbits
/
8.4S
13.5S
21.9S
25080
8192bits
/
0.01S
0.1S
0.1S
25320
32Kbits
/
0.1S
0.5S
0.6S
25LC1024
1Mbits
0.2S
1.5S
3.9S
4.6S
EN25T80
8Mbits
8.4S
12S
18S
38.4S
MX25L8005
8Mbits
5.8S
12S
17S
34.8S
MAX25L6405
64Mbits
42S
98S
166S
302S
95320
32Kbits
/
0.1S
0.5S
0.6S
35080
8192bits
/
0.1S
0.1S
0.2S
93C46
1024bits
?
?
?
0.1S
93CS56
2048bits
0.1
0.1
0.4
0.6S
93C66
4096bits
0.1
0.1
1.2
1.4S
93C86
8192bits
0.1
0.1
2.4
2.6S
microcontroller programming time list: (Unit: second)
IC
Erase
Read C
Write C
Read E
Write E
Total T
Remark
AT89C51 4K
0.3
0.3
5.3
/
/
5.9
?
AT89S52 8K
0.3
0.4
1.1
/
/
1.8
?
AT89S8253 12K+2K
0.3
0.7
3.7
0.1
0.7
5.5
?
AT89C4051 4K
0.2
0.2
6.4
/
/
6.8
20P
SST89E58 32K+8K
0.3
1.5
3.5
0.4
0.8
6.5
?
SST89E564 64K+8K
0.3
3.0
7.0
0.4
0.8
11.5
?
ATMEGA8 8K+512
0.05
0.3
1.8
0.1
0.5
2.8
?
ATMEGA48 4K+256
0.05
0.1
0.9
0.1
0.1
1.25
?
ATMEGA162V 16K+512
0.1
0.6
2.5
0.1
0.4
3.7
?
ATMEGA8515 8K+512
0.1
0.3
1.8
0.1
0.5
2.8
?
ATTINY13 1K+64
0.02
0.1
0.7
0.01
0.04
0.9
8P
ATTINY2313 2K+128
0.01
0.1
0.7
0.02
0.04
0.9
?
PIC10F222 1K
0.2
0.1
1.0
/
/
1.3
?
PIC12F629 2K+128
0.1
0.1
2.2
0.1
0.3
2.8
?
PIC16F873A 8K+128
0.1
0.5
4.5
0.1
0.8
6.0
?
PIC18F4550 32K+256
0.5
3.7
5.6
0.3
1.2
11.3
?
PIC18F67J10 128K bytes
0.5
16
20
/
/
36.5
?
PIC16C712 2K
/
0.1
0.9
/
/
1.0
?
PIC16C74B 8K
/
0.4
3.5
/
/
3.9
?
GAL16V8
0.8
1.4
3.4
/
/
5.6