Functional Modes of Operation
There are two primary functional modes of operation for the HPC167064.
#EPROM Mode
#Normal Running Mode
EPROM MODE
In the EPROM mode, the HPC167064 is configured to ‘‘ap- proximately emulate’’ a standard NMC27C256 EPROM. Some dissimilarities do exist. The most significant one is that HPC167064 contains only 16 kbytes of programmable memory, rather than the 32 kbytes in 27C256. An HPC167064 in the EPROM mode can be programmed with a Data I/O machine.
Given below is the list of functions that can be performed by the user in the EPROM mode.
#Programming
CAUTION: Exceeding 14V on pin 1 (VPP) will damage the HPC167064.
Initially, and after each erasure, all bits of the HPC EPROM are in the ‘‘1’’ state. Data is introduced by selec- tively programming ‘‘0s’’ into the desired bit locations. Although only ‘‘0s’’ will be programmed, both ‘‘1s’’ and ‘‘0s’’ can be presented in the data word. The only way to change a ‘‘0’’ to a ‘‘1’’ is by ultraviolet light erasure.
#Program/verify EPROM registers
To read data (verify) during the programming process,
VPP must be at 13V. When reading data after the pro- gramming process, VPP can be either 13V or at VCC.
#Program/verify ECON registers
There are two configuration registers ECON6 and ECON7 to emulate different family members and also to enable/disable different features in the chip. These reg- isters are not mapped in the EPROM user space. These bytes must be programmed through a pointer register
ECONA.
To prevent unintentional programming, the ECON6, 7 registers must be programmed with the assistance of this pointer register. ECONA, and externally presented ad- dress, both identify the same ECON register may be pro- grammed.
NORMAL RUNNING MODE
In this mode, the HPC167064 executes user software in the normal manner. By default, its arcitecture imitates that of the HPC16064. It may be configured to emulate the HPC16083. The addressable memory map will be exactly as for the HPC16083. The WATCHDOG function monitors ad- dresses accordingly. Thus, the HPC167064 can be used as a
Within this mode, the
The HPC167064 emulates the HPC16064 and HPC16083, except as described here.
#The value of EXM is latched on the rising edge of RESET. Thus, the user may not switch from ROMed to ROMless operation or
#The security logic can be used to control access to the
#Specific inputs are allowed to be driven at high voltage (13V) to configure the device for programming. These high voltage inputs are unique to the HPC167064. The same inputs cannot be driven to high voltage on the HPC16064 and HPC16083 without damage to the part.
#The Port D input structure on this device is slightly differ- ent from the masked ROM HPC16083 and HPC16064.
VIH2 min and VIL2 max are the same as for the masked ROM HPC16083 and HPC16064. There is a VIH2 max requirement for this device equal to VCC a 0.05V. There is also a VIL2 min requirement for this device equal to
#The D.C. Electrical Characteristics and A.C. Electrical
Characteristics for the HPC167064, where TA e b55§C to a125§C, are guaranteed over a reduced operating voltage range of VCC g5%. This is different from the masked ROM devices that it simulates which is VCC g10%. These characteristics for the HPC467064, where
TA e b0§C to a70§C, are guaranteed over the masked ROM operating voltage range which is VCC g10%.
#In addition to the reduced operating voltage range for the
HPC167064, the A.C. timing parameter tUDH is required to be a mimimum value of 25 ns. The masked ROM de-
vices require a mimimum tUDH 0f 20 ns. This A.C. timing parameter for the HPC467064 is required to be the same as the masked ROM devices.
HPC167064 EPROM SECURITY
The HPC167064 includes security logic to provide READ and WRITE protection of the
Security Level 3
This is the default configuration of an erased HPC167064. READ and WRITE accesses to the
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