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Unlock Microchip Processor PIC16C710 Locked Eeprom Data

We can Unlock Microchip Processor PIC16C710 Locked Eeprom Data, please view the PIC16C710 features for your reference:
Up to 24 (in PIC16C710 devices)/16 (in PIC16C710 devices) segments
Static, 1/2 or 1/3 LCD BiasThe module has 32 registers:
• LCD Control Register (LCDCON)
• LCD Phase Register (LCDPS)
Three LCD Segment Enable Registers (LCDSE<2:0>)
• 24 LCD Data Registers (LCDDATA<11:0>)
The LCDCON register, shown in Register 9-1, controls the operation of the LCD driver module. The LCDPS register, shown in Register 9-2, configures the LCD clock source prescaler and the type of waveform;
Type-A or Type-B. The LCDSE<2:0> registers configure the functions of the port pins when Unlock Microchip Processor PIC16C710 Locked Eeprom Data:
• LCDSE0
SE<7:0>
• LCDSE1
SE<15:8>
• LCDSE2
SE<23:16>
As an example, LCDSEn is detailed in Register 9-3.

Writing into the registers LCDDATA2, LCDDATA5, LCDDATA8 and LCDDATA11 in PIC16F913/916 devices will not affect the status of any pixel and these registers can be used as General Purpose Registers.
The first clock source is the system clock divided by 8192 (FOSC/8192). This divider ratio is chosen to provide about 1 kHz output when the system clock is 8 MHz. The divider is not programmable. Instead, the LCD prescaler bits, LCDPS<3:0>, are used to set the LCD frame clock rate.
The second clock source is the T1OSC/32. This also gives about 1 kHz when a 32.768 kHz crystal is used with the Timer1 oscillator. To use the Timer1 oscillator as a clock source, the T1OSCEN (T1CON<3>) bit should be set.
The third clock source is the 31 kHz LFINTOSC/32, which provides approximately 1 kHz output. The second and third clock sources may be used to continue running the LCD while the processor is in Sleep.
Using the bits, CS<1:0> (LCDCON<3:2>), any of these clock sources can be selected. A 16-bit counter is available as a prescaler for the LCD clock. The prescaler is not directly readable or writable; its value is set by the LP<3:0> bits (LCDPS<3:0>), which determine the prescaler assignment and prescale ratio.
The prescale values from 1:1 through 1:16. The LCD driver module can be configured into three bias types:
Static Bias (2 voltage levels: VSS and VDD)
1/2 Bias (3 voltage levels: VSS, 1/2 VDD and VDD)
1/3 Bias (4 voltage levels: VSS, 1/3 VDD, 2/3 VDD and VDD) after Unlock Microchip Processor PIC16C710 Locked Eeprom Data
This module uses an external resistor ladder to generate the LCD bias voltages. The external resistor ladder should be connected to the Bias 1 pin, Bias 2 pin, Bias 3 pin and VSS. The Bias 3 pin should also be connected to VDD. Figure 9-2 shows the proper way to connect the resistor ladder to the Bias pins.



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