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GMS90L51-GBXXX12 参数 Datasheet PDF下载

GMS90L51-GBXXX12图片预览
型号: GMS90L51-GBXXX12
PDF下载: 下载PDF文件 查看货源
内容描述: [Microcontroller, 8-Bit, MROM, 12MHz, CMOS, PDIP40, PLASTIC, DIP-40]
分类和应用: 时钟微控制器光电二极管外围集成电路
文件页数/大小: 59 页 / 724 K
品牌: HYNIX [ HYNIX SEMICONDUCTOR ]
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GMS90 Series  
HYUNDAI MicroElectronics  
EPROM CHARACTERISTICS  
The GMS97C5X, 97L5X are programmed by using a modified Quick-Pulse ProgrammingTM algorithm. It dif-  
fers from older methods in the value used for VPP (programming supply voltage) and in the width and number  
of the ALE/PROG pulses. The GMS97C5X, 97L5X contains two signature bytes that can be read and used by  
an EPROM programming system to identify the device. The signature bytes identify the device as an manufac-  
tured by HME. Table 11 shows the logic levels for reading the signature byte, and for programming the program  
memory, the encryption table, and the security bits. The circuit configuration and waveforms for quick-pulse  
programming are shown in Figure 12 and Figure 13. Figure 14 show the circuit configuration for normal pro-  
gram memory verification.  
Reading the Signature Bytes :  
The GMS97X51/52 signature bytes in locations 030H and 031H, the GMS97X54/56/58 signature bytes in loca-  
tions 05EH and 07CH. To read these bytes follow the procedure for EPROM verify, except that P3.6 and P3.7  
need to be pulled to a logic low.  
The values are:  
Device  
Location  
Contents  
Remarks  
GMS97X51  
30H  
31H  
E0H  
73H  
Manufacturer ID  
Device ID  
GMS97X52  
GMS97X54  
GMS97X56  
GMS97X58  
30H  
31H  
E0H  
71H  
Manufacturer ID  
Device ID  
5EH  
7CH  
E0H  
54H  
Manufacturer ID  
Device ID  
5EH  
7CH  
E0H  
56H  
Manufacturer ID  
Device ID  
5EH  
7CH  
E0H  
58H  
Manufacturer ID  
Device ID  
Quick-pulse programming  
The setup for microcontroller quick-pulse programming is shown in Figure 13. Note that the GMS97C5X,  
97L5X is running with a 4 to 6MHz oscillator. The reason the oscillator needs to be running is that the device  
is executing internal address and program data transfers.  
The address of the EPROM location to be programmed is applied to ports 1 and 2, as shown in Figure 12. The  
code byte to be programmed into that location is applied to port 0, RST, PSENand pins of port 2 and 3 in Table  
11 are held at the "Program Code Data" levels indicated in Table 11. The ALE/PROGis pulsed low 25 times(10  
times for 97X54/56/58) as shown Figure 13.  
To program the encryption table, repeat the 25 pulses (10 pulses for 97X54/56/58) programming sequence for  
addresses 0 through 1FH(3FH for 97X54/56/58), using the "Program Encryption Table" levels. Do not forget  
that after the encryption table is programmed, verification cycles will produce only encrypted data.  
To program the security bits, repeat the 25 pulses (10 pulses for 97X54/56/58) programming sequence using the  
"Pgm Security Bit" levels after one security bit is programmed, further programming of the code memory and  
Oct. 2000 Ver 3.1a  
47  
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