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To our valued customers I want to express my thanks to you for being interested in our products and for having confidence in Nanning LogiFind Tech CO., Ltd. The primary aim of our company is to design and produce high quality electronic products and to constantly improve the performance thereof in order to better suit your needs.
PIC EK Lab Operation Guide (for PIC16F914) Lab1.Speaker1 a).Hardware Connection b). OBJECTIVES 1.To understand the operation of an IO. 2.To interface and drive a Buzzer/Speaker. c). Result RC2=1,The transistor T1(S8050) is saturated and “ON”, and the Speaker will be continued activated.
PIC EK Lab Operation Guide (for PIC16F914) Lab2.Speaker2 a).Hardware Connection b). OBJECTIVES 1.To understand the operation of an IO. 2.To interface and drive a Buzzer/Speaker. c). Experimental Principle and Results RC2=1,the transistor T1(S8050) is saturated and “ON”, and the Speaker will be activated;...
PIC EK Lab Operation Guide (for PIC16F914) Lab3.Drive one LED V0 a).Hardware Connection b). OBJECTIVES To understand the operation of an IO. To interface and drive an LED. c). Experimental Principle and Results RD0=1, and the V0 will be “ON”.
PIC EK Lab Operation Guide (for PIC16F914) Lab4.Drive one LED V0(flashing) a).Hardware Connection b). OBJECTIVES To understand the operation of an IO. To interface and drive an LED. c). Experimental Principle and Results RD0=1, and the V0 will be “ON”; RD0=0, and the V0 will be “OFF”.We give it some frequency via delay,the V0 will be flashing.
PIC EK Lab Operation Guide (for PIC16F914) Lab5.Drive 8 LEDs(from V0 to V7) a).Hardware Connection b). OBJECTIVES To understand the operation of an IO. To interface and drive an LED. c). Experimental Principle and Results Make a value table and send the value to the RD port to make the 8 LEDs running in flowing water mode , from left to right, reciprocating cycle.
PIC EK Lab Operation Guide (for PIC16F914) Lab6.16digit Segled Display a).Hardware Connection b). OBJECTIVES To understand the operation of an IO. To interface and drive a dynamic state SEGLED. c). Experimental Principle and Results segment “b” and “c”—“ON”,the others segments—“OFF”.
PIC EK Lab Operation Guide (for PIC16F914) Lab7.16digit Segled Display(069) a).Hardware Connection b). OBJECTIVES To understand the operation of an IO. To interface and drive a dynamic state SEGLED. c). Experimental Principle and Results Make a table to save value 0~9,and send them to RD port. d).Table for value 069...
PIC EK Lab Operation Guide (for PIC16F914) Lab8.46digit Segled Display (ones place) a).Hardware Connection b). OBJECTIVES To understand the operation of an IO. To interface and drive a dynamic state SEGLED. c). Experimental Principle and Results Set Y0=0 on 74HC138,and send “0” to the RD port at the same time. The fourth digit will display “0”.
PIC EK Lab Operation Guide (for PIC16F914) Lab9.46digit Segled Display (tens place) a).Hardware Connection b). OBJECTIVES To understand the operation of an IO. To interface and drive a dynamic state SEGLED. c). Experimental Principle and Results Set Y1=0 on 74HC138,and send “1” to the RD port at the same time. The third digit will display “1”.
PIC EK Lab Operation Guide (for PIC16F914) Lab10.46digit Segled Display (hundreds place) a).Hardware Connection b). OBJECTIVES To understand the operation of an IO. To interface and drive a dynamic state SEGLED. c). Experimental Principle and Results Set Y2=0 on 74HC138,and send “2” to the RD port at the same time. The second digit will display “2”.
PIC EK Lab Operation Guide (for PIC16F914) Lab11.46digit Segled Display (thousands place) a).Hardware Connection b). OBJECTIVES To understand the operation of an IO. To interface and drive a dynamic state SEGLED. c). Experimental Principle and Results Set Y3=0 on 74HC138,and send “3” to the RD port at the same time. The first digit will display “3”.
PIC EK Lab Operation Guide (for PIC16F914) Lab12.46digit Segled Display (0123) a).Hardware Connection b). OBJECTIVES To understand the operation of an IO. To interface and drive a dynamic state SEGLED. c). Experimental Principle and Results Set Y06Y3 to “0” one by one, and send “0” “3” to the RD port at the same time. The four digit will display “0123”.
PIC EK Lab Operation Guide (for PIC16F914) Lab13.46digit Segled Display (000069999) a).Hardware Connection b). OBJECTIVES To understand the operation of an IO. To interface and drive a dynamic state SEGLED. c). Experimental Principle and Results Set Y06Y3 to “0” one by one, and send value to the RD port at the same time and then value+1.
PIC EK Lab Operation Guide (for PIC16F914) Lab14.Jostick&Buttons+16digit Segled a).Hardware Connection b). OBJECTIVES To understand the operation of an IO. To interface and drive a dynamic state SEGLED. c). Experimental Principle and Results The Key value display on the 4 digit segled when Button1 Button3 or Joystick is pressed.
PIC EK Lab Operation Guide (for PIC16F914) Lab15.Jostick&Buttons+Speaker a).Hardware Connection b). OBJECTIVES To understand the operation of an IO. To interface and drive a Buzzer/speaker. c). Experimental Principle and Results The Speaker will be activated when Button1 Button3 or Joystick is pressed.
PIC EK Lab Operation Guide (for PIC16F914) Lab16.4x4Keyboard+16digit segled a).Hardware Connection b). OBJECTIVES To understand the operation of an IO. To understand the keypad scan tech. c). Experimental Principle and Results The Key value display on the 1 digit segled when KEY1 KEY16 is pressed.
PIC EK Lab Operation Guide (for PIC16F914) Lab17. 4x4Keyboard+Speaker a).Hardware Connection b). OBJECTIVES To understand the operation of an IO. To understand the keypad scan tech. c). Experimental Principle and Results The Speaker will be activated when KEY1 KEY16 is pressed.
PIC EK Lab Operation Guide (for PIC16F914) Lab18. Stepmotor a).Hardware Connection b). OBJECTIVES To understand how to control a stepmotor. c). Experimental Principle and Results We use a 4 phase step motor in this application. The step motor will rotate when we add different voltage on the 4 lines.
PIC EK Lab Operation Guide (for PIC16F914) Lab19. LCD1602 Display (Char) a).Hardware Connection b). OBJECTIVES To understand the operation of a Char LCD. c). Experimental Principle and Results...
PIC EK Lab Operation Guide (for PIC16F914) Lab20. LCD1602 Display (Arabic numerals) a).Hardware Connection b). OBJECTIVES To understand the operation of a Char LCD. c). Experimental Principle and Results...
PIC EK Lab Operation Guide (for PIC16F914) Lab21. LCD1602 Display (number++) a).Hardware Connection b). OBJECTIVES To understand the operation of a Char LCD. c). Experimental Principle and Results...
PIC EK Lab Operation Guide (for PIC16F914) Lab23. Timer0+16digit segled Display a).Hardware Connection b). OBJECTIVES To understand the operation of timer. c). Experimental Principle and Results Set timer T0 250us*400=1s,0,1,2,3,C9,0,1,2C..
PIC EK Lab Operation Guide (for PIC16F914) Lab26. Timer1+16digit segled Display a).Hardware Connection b). OBJECTIVES To understand the operation of timer. c). Experimental Principle and Results Set timer T1 250us*400=1s,0,1,2,3,C9,0,1,2C..
PIC EK Lab Operation Guide (for PIC16F914) Lab29. Timer2+16digit segled Display a).Hardware Connection b). OBJECTIVES To understand the operation of timer. c). Experimental Principle and Results Set timer T2 250us*400=1s,0,1,2,3,C9,0,1,2C..
PIC EK Lab Operation Guide (for PIC16F914) Lab31. Interrupt(RB0)+BUTTON1+LEDs a).Hardware Connection b). OBJECTIVES To understand the operation of RB0 Interrupt. c). Experimental Principle and Results Press BUTTON1(RB0), LEDs will return to the initial state(restart).
PIC EK Lab Operation Guide (for PIC16F914) Lab32. Interrupt(RB0)+BUTTON1+16digit segled Display a).Hardware Connection b). OBJECTIVES To understand the operation of RB0 Interrupt. c). Experimental Principle and Results Press BUTTON1(RB0), the 1 digit segled will return to the initial state(restart),0++.
PIC EK Lab Operation Guide (for PIC16F914) Lab33. Interrupt(RB0)+BUTTON1+46digit segled Display a).Hardware Connection b). Objectives To understand the operation of RB0 Interrupt. c). Experimental Principle and Results Press BUTTON1(RB0), the 4 digit segled will return to the initial state(restart),0000++.
PIC EK Lab Operation Guide (for PIC16F914) Lab34. Interrupt(RB0)+BUTTON1+LCD1602 a).Hardware Connection b). Objectives To understand the operation of RB0 Interrupt. c). Experimental Principle and Results Press BUTTON1(RB0), the LCD1602 will return to the initial state(restart),0000++.
PIC EK Lab Operation Guide (for PIC16F914) Lab35. PS2 KEYBOARD+ LCD1602 Display a).Hardware Connection b). Objectives To understand the operation of PS/2 Keyboard using a Microcontroller. c). Experimental Principle and Results Press a keys on the keyboard, the key value will be displayed on LCD1602.
PIC EK Lab Operation Guide (for PIC16F914) Lab37. Internal eeprom+ LCD1602 Display a).Hardware Connection b). Objectives To understand the operation of internal eeprom. c). Experimental Principle and Results 0x10, write 0x10,and display on LCD1602. Read the data X from address X+1, X+1 to Reset or re power the board.
PIC EK Lab Operation Guide (for PIC16F914) Lab38. PWM(CCP1)+ V5 a).Hardware Connection b). OBJECTIVES To understand the operation of PWM(RC5). c). Experimental Principle and Results Use different duty cycle to control the brightness of the LED.The V5 will be activated and act from Dim to Bright Bright to DimC..
PIC EK Lab Operation Guide (for PIC16F914) Lab39. PWM(CCP2)+ V2 a).Hardware Connection b). OBJECTIVES To understand the operation of PWM(RD2). c). Experimental Principle and Results Use different duty cycle to control the brightness of the LED.The V2 will be activated and act from Dim to Bright Bright to DimC..
PIC EK Lab Operation Guide (for PIC16F914) Lab40. CCP1+Remote+ LCD1602 Display a).Hardware Connection b). OBJECTIVES To understand the operation of CCP1 and infrared Remote control c). Experimental Principle and Results After pressed on the infrared remote controller, the code signal is received by the infrared receiver on PIC6EK board, trigger an interrupt, Decoding based on pulse width, send the decoding value to LCD1602.Press the key on the Remoter, the key value will be displayed on the LCD1602.
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PIC EK Lab Operation Guide (for PIC16F914) Lab41. Remote+ SPEAKER a).Hardware Connection b. OBJECTIVES To understand the operation of infrared Remote control using CCP1 decoding. c). Experimental Principle and Results Press the any key on the Remoter, the speaker will be activated...
PIC EK Lab Operation Guide (for PIC16F914) Lab42. RB0+Remote+LCD1602 Display a).Hardware Connection b). OBJECTIVES To understand the operation of RB0 external Interrupt and infrared Remote control c). Experimental Principle and Results After pressed on the infrared remote controller, the code signal is received by the infrared receiver on PIC6EK board, trigger an interrupt, Decoding based on pulse width, send the decoding value to LCD1602.Press the key on the Remoter, the key value will be displayed on the LCD1602.
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PIC EK Lab Operation Guide (for PIC16F914) Lab43. AN0(8BIT)+LCD1602 Display a).Hardware Connection b). OBJECTIVES To understand the operation of 8&bit ADC. c). Experimental Principle and Results Adjust the potentiometer ADC_INPUT, The 8 bit AD0 ampling value will be displayed on the LCD1602,the range of 0 255.
PIC EK Lab Operation Guide (for PIC16F914) Lab44. AN1(8BIT)+LCD1602 Display a).Hardware Connection b). OBJECTIVES To understand the operation of 8&bit ADC. c). Experimental Principle and Results Adjust the potentiometer ADC_INPUT, The 8 bit AD1 ampling value will be displayed on the LCD1602,the range of 0 255.
PIC EK Lab Operation Guide (for PIC16F914) Lab45. AN2(8BIT)+LCD1602 Display a).Hardware Connection b). OBJECTIVES To understand the operation of 8&bit ADC. c). Experimental Principle and Results Adjust the potentiometer ADC_INPUT, The 8 bit AD2 ampling value will be displayed on the LCD1602,the range of 0 255.
PIC EK Lab Operation Guide (for PIC16F914) Lab46. AN3(8BIT)+LCD1602 Display a).Hardware Connection b). OBJECTIVES To understand the operation of 8&bit ADC. c). Experimental Principle and Results Adjust the potentiometer ADC_INPUT, The 8 bit AD3 ampling value will be displayed on the LCD1602,the range of 0 255.
PIC EK Lab Operation Guide (for PIC16F914) Lab47. AN4(8BIT)+LCD1602 Display a).Hardware Connection b). OBJECTIVES To understand the operation of 8&bit ADC. c). Experimental Principle and Results Adjust the potentiometer ADC_INPUT, The 8 bit AD4 ampling value will be displayed on the LCD1602,the range of 0 255.
PIC EK Lab Operation Guide (for PIC16F914) Lab48. AN5(8BIT)+LCD1602 Display a).Hardware Connection b). OBJECTIVES To understand the operation of 8&bit ADC. c). Experimental Principle and Results Adjust the potentiometer ADC_INPUT, The 8 bit AD5 ampling value will be displayed on the LCD1602,the range of 0 255.
PIC EK Lab Operation Guide (for PIC16F914) Lab49. AN6(8BIT)+LCD1602 Display a).Hardware Connection b). OBJECTIVES To understand the operation of 8&bit ADC. c). Experimental Principle and Results Adjust the potentiometer ADC_INPUT, The 8 bit AD6 ampling value will be displayed on the LCD1602,the range of 0 255.
PIC EK Lab Operation Guide (for PIC16F914) Lab50. AN7(8BIT)+LCD1602 Display a).Hardware Connection b). OBJECTIVES To understand the operation of 8&bit ADC. c). Experimental Principle and Results Adjust the potentiometer ADC_INPUT, The 8 bit AD7 ampling value will be displayed on the LCD1602,the range of 0 255.
PIC EK Lab Operation Guide (for PIC16F914) Lab51. AN0(10BIT)+LCD1602 Display a).Hardware Connection b). OBJECTIVES To understand the operation of 10&bit ADC. c). Experimental Principle and Results Adjust the potentiometer ADC_INPUT, The 10 bit AD0 ampling value will be displayed on the LCD1602,the range of 0 1023.
PIC EK Lab Operation Guide (for PIC16F914) Lab52. AN1(10BIT)+LCD1602 Display a).Hardware Connection b). OBJECTIVES To understand the operation of 10&bit ADC. c). Experimental Principle and Results Adjust the potentiometer ADC_INPUT, The 10 bit AD1 ampling value will be displayed on the LCD1602,the range of 0 1023.
PIC EK Lab Operation Guide (for PIC16F914) Lab53. AN2(10BIT)+LCD1602 Display a).Hardware Connection b). OBJECTIVES To understand the operation of 10&bit ADC. c). Experimental Principle and Results Adjust the potentiometer ADC_INPUT, The 10 bit AD2 ampling value will be displayed on the LCD1602,the range of 0 1023.
PIC EK Lab Operation Guide (for PIC16F914) Lab54. AN3(10BIT)+LCD1602 Display a).Hardware Connection b). OBJECTIVES To understand the operation of 10&bit ADC. c). Experimental Principle and Results Adjust the potentiometer ADC_INPUT, The 10 bit AD3 ampling value will be displayed on the LCD1602,the range of 0 1023.
PIC EK Lab Operation Guide (for PIC16F914) Lab55. AN4(10BIT)+LCD1602 Display a).Hardware Connection b). OBJECTIVES To understand the operation of 10&bit ADC. c). Experimental Principle and Results Adjust the potentiometer ADC_INPUT, The 10 bit AD4 ampling value will be displayed on the LCD1602,the range of 0 1023.
PIC EK Lab Operation Guide (for PIC16F914) Lab56. AN5(10BIT)+LCD1602 Display a).Hardware Connection b). OBJECTIVES To understand the operation of 10&bit ADC. c). Experimental Principle and Results Adjust the potentiometer ADC_INPUT, The 10 bit AD5 ampling value will be displayed on the LCD1602,the range of 0 1023.
PIC EK Lab Operation Guide (for PIC16F914) Lab57. AN6(10BIT)+LCD1602 Display a).Hardware Connection b). OBJECTIVES To understand the operation of 10&bit ADC. c). Experimental Principle and Results Adjust the potentiometer ADC_INPUT, The 10 bit AD6 ampling value will be displayed on the LCD1602,the range of 0 1023.
PIC EK Lab Operation Guide (for PIC16F914) Lab58. AN7(10BIT)+LCD1602 Display a).Hardware Connection b). OBJECTIVES To understand the operation of 10&bit ADC. c). Experimental Principle and Results Adjust the potentiometer ADC_INPUT, The 10 bit AD7 ampling value will be displayed on the LCD1602,the range of 0 1023.
PIC EK Lab Operation Guide (for PIC16F914) Lab59. Voltage Measuring (Using 86BIT AN0) +LCD1602 Display a).Hardware Connection b). OBJECTIVES To understand the operation of 8&bit ADC. c). Experimental Principle and Results Adjust the potentiometer ADC_INPUT, The 8 bit AD0 ampling voltage will be displayed on the LCD1602.
PIC EK Lab Operation Guide (for PIC16F914) Lab60. Voltage Measuring (Using 106BIT AN0) +LCD1602 a).Hardware Connection b). OBJECTIVES To understand the operation of 10&bit ADC. c). Experimental Principle and Results Adjust the potentiometer ADC_INPUT, The 10 bit AD0 ampling voltage will be displayed on the LCD1602.
PIC EK Lab Operation Guide (for PIC16F914) Lab61. AN06CCP1+V5 a).Hardware Connection b). OBJECTIVES To understand the operation of CCP1 and AD0. c). Experimental Principle and Results Adjust the potentiometer ADC_INPUT, the LED brightness V5 will changing.
PIC EK Lab Operation Guide (for PIC16F914) Lab62. AN06CCP2+V2 a).Hardware Connection b). OBJECTIVES To understand the operation of CCP2 and AD0. c). Experimental Principle and Results Adjust the potentiometer ADC_INPUT, the LED brightness V2 will changing.
PIC EK Lab Operation Guide (for PIC16F914) Lab63. DS18B20+LCD1602 Display a).Hardware Connection b). OBJECTIVES To understand the operation of 1 wire device DS18B20. c). Experimental Principle and Results The current environment’s temperature value will be displayed on the LCD1602.
PIC EK Lab Operation Guide (for PIC16F914) Lab64. 24CXX+LCD1602 Display a).Hardware Connection b). OBJECTIVES To understand the operation of external eeprom 24Cxx. c). Experimental Principle and Results Button or re power up the board Press the “Reset” , the external eeprom will record the number of times. Press Reset Button or re power up the boardC..
PIC EK Lab Operation Guide (for PIC16F914) Lab65. RTC PCF8563+LCD1602 Display a).Hardware Connection b). OBJECTIVES To understand the operation of PCF8563 using IIC. c). Experimental Principle and Results The RTC will will be displayed on the LCD1602.
PIC EK Lab Operation Guide (for PIC16F914) Lab66. RS232+LCD1602 a).Hardware Connection b). OBJECTIVES To understand the operation of RS232. c). Experimental Principle and Results Send a data X from PC, the MCU will receive it and return X+1 to PC. All data will be displayed on the LCD1602.
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PIC EK Lab Operation Guide (for PIC16F914) 3)Sent data “0x37” and received data “0x 38” will be displayed on LCD1602.
PIC EK Lab Operation Guide (for PIC16F914) Contact Us Nanning LogiFind Tech CO.,LTD Room 606,B# of Nanguo Building,NO.16,Zhuxi South Road,Nanning,Guangxi,P.R.China Mobile:(0086)15978193886/TEL: (0086)0771 5677749 Skype:love100mhz E&MAIL:love100mhz@hotmail.com Website:www.LogiFind.com http://stores.ebay.com/logifind ebay Store 1: ebay Store 2: http://stores.ebay.com/kitfind ebay Store 3: http://stores.ebay.com/opendiy If you want to learn more about our products, please visit our website at: www.LogiFind.com...