Thin-film transistor liquid-crystal display(TFT-LCD) uses a layer of liquid crystal molecules placed between two pieces of glass, the upper glass is mainly bound with color filters, while the transistors are embedded in the top of lower glass, when the transistor is turned on, the current which pass through the transistor change the electric field for liquid crystal molecules. With the different variation of electric field, the molecules are rotated for different angles and change the polarity of light 。By cooperating with fixed backlight and filters determines the light and dark condition in pixels, finally the light through the color filters produces the image which appears in a panel. To ensure most of electric field which is produced by transistor can be used by liquid crystal molecules and to avoid producing built-in electric field made by mobile ions in liquid crystal molecules (the built-in electric field causes DC residue which would distorted the image), using the AC voltage applies to the liquid crystal molecules and inverse their polarity is the general way at present, but the AC power consumption in TFT-LCD occupies a large part of the overall power consumption. However, when the screen is in standby mode (exists in some technologies such as mobile phones or computers) and no image changing, the AC voltage is needed to input with a certain frequency, which means continuous increasing power consumption. Therefore, how to reducing the power consumption by maintaining the inversion voltage with certain frequency when no AC voltage inputting is the main subject which is being extensively studied. In this paper, two pixel memory circuits are proposed to solve the above problem. However, the circuits use low-temperature poly-silicon TFT, referred to as LTPS-TFTs as the driving devices. LTPS-TFTs have high mobility which can reduce the size of device and lower the operating voltage which reduces power consumption; In addition, LTPS-TFTs have both p-type and n-type that can fit the circuit design more. Using the pixel memory can provide stable inversion voltage and would reduce the update rate in static mode. It is a advancement for achieving the goal for low power consumption TFT-LCDs. Besides, RFID (Radio Frequency Identification) system is developed for the disadvantage of contact systems, the system uses radio frequency signals to send and receive data and also uses this wireless communication to transmit wireless energy and identify goods that need no human’s intervention, it can work in variety of harsh environments. RFID technology can identify moving objects with high speed and can also recognize multiple electric tags. However, as improvement of RFID technology and lower of cost, it has gradually replaced the traditional identification system with bar code and widely used in data storage and security systems, such as access control systems, cargos monitoring and management and so on. If this wireless identification system receivers (RFID tag) embedded panel applications nowadays such as mobile phones, they can directly in use without taking another electric tags, and enhance the convenience in life. However, most of identification system circuits are designed with single crystal silicon transistors, it will not only increase the routing difficulties, but also greatly increase the cost of production. Therefore, using amorphous silicon thin film transistors and polysilicon thin film transistors to design wireless identification system circuits combined with system on panel(SOP) is a goal which is pursued recently In this paper, we propose a wireless radio frequency identification system demodulator circuit, the circuit is used with amorphous silicon thin film transistor as the driving device, the function is analog data receiving and changes to digital data to back-end digital circuits. The suitable frequency range consistent with the definition of the frequency identification system (135KHz ~ 13.56MHz). By the feasibility of this circuit, it is possible that all digital circuits utilize amorphous silicon transistors gradually and replace the general bonding of IC. It’s not merely increases productivity significantly, but also achieves target that the RFID system on panel.