Freescale Semiconductor M68HC08 инструкция обслуживания

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Хорошее руководство по эксплуатации

Законодательство обязывает продавца передать покупателю, вместе с товаром, руководство по эксплуатации Freescale Semiconductor M68HC08. Отсутствие инструкции либо неправильная информация, переданная потребителю, составляют основание для рекламации в связи с несоответствием устройства с договором. В законодательстве допускается предоставлении руководства в другой, чем бумажная форме, что, в последнее время, часто используется, предоставляя графическую или электронную форму инструкции Freescale Semiconductor M68HC08 или обучающее видео для пользователей. Условием остается четкая и понятная форма.

Что такое руководство?

Слово происходит от латинского "instructio", тоесть привести в порядок. Следовательно в инструкции Freescale Semiconductor M68HC08 можно найти описание этапов поведения. Цель инструкции заключается в облегчении запуска, использования оборудования либо выполнения определенной деятельности. Инструкция является набором информации о предмете/услуге, подсказкой.

К сожалению немного пользователей находит время для чтения инструкций Freescale Semiconductor M68HC08, и хорошая инструкция позволяет не только узнать ряд дополнительных функций приобретенного устройства, но и позволяет избежать возникновения большинства поломок.

Из чего должно состоять идеальное руководство по эксплуатации?

Прежде всего в инструкции Freescale Semiconductor M68HC08 должна находится:
- информация относительно технических данных устройства Freescale Semiconductor M68HC08
- название производителя и год производства оборудования Freescale Semiconductor M68HC08
- правила обслуживания, настройки и ухода за оборудованием Freescale Semiconductor M68HC08
- знаки безопасности и сертификаты, подтверждающие соответствие стандартам

Почему мы не читаем инструкций?

Как правило из-за нехватки времени и уверенности в отдельных функциональностях приобретенных устройств. К сожалению само подсоединение и запуск Freescale Semiconductor M68HC08 это слишком мало. Инструкция заключает ряд отдельных указаний, касающихся функциональности, принципов безопасности, способов ухода (даже то, какие средства стоит использовать), возможных поломок Freescale Semiconductor M68HC08 и способов решения проблем, возникающих во время использования. И наконец то, в инструкции можно найти адресные данные сайта Freescale Semiconductor, в случае отсутствия эффективности предлагаемых решений. Сейчас очень большой популярностью пользуются инструкции в форме интересных анимаций или видео материалов, которое лучше, чем брошюра воспринимаются пользователем. Такой вид инструкции позволяет пользователю просмотреть весь фильм, не пропуская спецификацию и сложные технические описания Freescale Semiconductor M68HC08, как это часто бывает в случае бумажной версии.

Почему стоит читать инструкции?

Прежде всего здесь мы найдем ответы касательно конструкции, возможностей устройства Freescale Semiconductor M68HC08, использования отдельных аксессуаров и ряд информации, позволяющей вполне использовать все функции и упрощения.

После удачной покупки оборудования/устройства стоит посвятить несколько минут для ознакомления с каждой частью инструкции Freescale Semiconductor M68HC08. Сейчас их старательно готовят или переводят, чтобы они были не только понятными для пользователя, но и чтобы выполняли свою основную информационно-поддерживающую функцию.

Содержание руководства

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    M68HC08 Micr ocontr oller s freescale.com Designer Reference Manual Dimmable Light Ballast with Power Factor Correction DRM067 Rev. 1 12/2005[...]

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    [...]

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    Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 Freescale Semiconductor 3 Dimmable Light Ballast with Power Factor Correction Designer Reference Manual by: Petr Frgal Freescale Czech Systems Center Roznov pod Radhostem, Czech Republic To provide the most up-to-date information, the revisi on of our docume nts on the World Wide Web wi[...]

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    Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 4 Freescale Semiconductor Draft 2 for Review[...]

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    Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 Freescale Semiconductor 5 Contents Chapter 1 Introduction 1.1 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 1.2 Benefits of this Solution . . . . . . . . . . . . . . . . . . . . . . . . . [...]

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    Dimmable Light Ballast with P ower Factor Correction 6 Freescale Semiconductor Chapter 5 Software Design 5.1 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35 5.2 Control Algorithm Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .[...]

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    Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 Freescale Semiconductor 7 Chapter 1 Introduction 1.1 Introduction This reference design describes th e design of a full y digital dimmable light ballast with power factor correction (PFC) control for two parallel connected fluorescent la mps. This reference design focuses on th e lamp b[...]

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    Introduction Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 8 Freescale Semiconductor • Energy saving • Ease of adapting software for different lamps • Ease of re-programming the system behavior • Software can simplify the hardwa re • Diagnostic functions — fault state, tube end-of-life, ignition fault, tube remo ved •[...]

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    The MC68HC908LB8 Microc ontroller Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 Freescale Semiconductor 9 • Dual channel high resolution PWM (HRP) with deadtime insertion and shutdown inpu t to perform light control and dimming functions for ballasts. The outputs u se frequency dithering to achieve a 3.9 ns output resolution. •[...]

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    Introduction Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 10 Freescale Semiconductor[...]

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    Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 Freescale Semiconductor 11 Chapter 2 Control Theory 2.1 Introduction This chapter covers fluoresce nt lamp theory and two PFC concepts - discont in uous conduction mode and hysteresis current control mode. 2.1.1 Fluorescent Lamp Control Theory To light a low-pressure fluorescent lamp, t[...]

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    Control Theory Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 12 Freescale Semiconductor Figure 2-1. Typical Low Pressure Fluorescent Tube I/V Characteristic The value of V strike is a function of several parameters: • Gas filling mixture • Gas pressure and temperature • Tube length • Tube diameter • Temperature of electro[...]

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    Introd uctio n Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 Freescale Semiconductor 13 Figure 2-2. Typical F luorescent Tube Equivalent Circuit in Steady Stat e Up to now, there is no model avai lable to describe the start up sequ ence of these lamps. However, since most of the phenomena are dependent upon the steady state charact[...]

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    Control Theory Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 14 Freescale Semiconductor The operation of a fluorescent tube requires se veral components around the tube, as shown in Figure 2-3 . The gas mixture enclosed in the tub e is ionized by means of a high voltage pulse applied between the two electrodes. To make this startup[...]

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    PFC Control Theory Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 Freescale Semiconductor 15 power, battery operated fluorescent tubes are driven with a single switch fly-back topology, but, the output transformer is coupled to the tube by a capacitive network and the current through th e lamp is alternating current. However, the fi[...]

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    Control Theory Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 16 Freescale Semiconductor 2.2.2 Digital Power F actor Concept — Hysteresi s Current Control Mode The control technique is based on hysteretic current control. The system operates in continuous conduction mode with variable switching frequen cy (30–100 kHz) (see Figur[...]

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    PFC Control Theory Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 Freescale Semiconductor 17 Figure 2-5. Hystere sis Current Control Mode Current Waveform 2.2.3 Digital Power Factor C oncept — Disconti nuous Conduction Mode The control technique is based on discontinuous con duction mode with a current loop with a constant switchi[...]

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    + DC BUS + AC LINE AC DC MCU Reference Volta ge Actual Current Zero Crossing L GND Compara tor DC Bus Volta ge - Current Sensin g IC ADC PWM0 + MOSFET PWM FAULT PIN PWM1 Control Theory Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 18 Freescale Semiconductor Figure 2-6. Discontinuous Conduction Mode Principle Figure 2-7. Discontinuo[...]

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    PFC Control Theory Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 Freescale Semiconductor 19 Figure 2-8. Generated Input Current Waveform 2.2.4 Concept Summary Both the PFC solutions can be used for applicat ions that do not require a large portion of the MCU’s resources, because they consume only a fractio n of the MCU performanc[...]

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    Control Theory Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 20 Freescale Semiconductor[...]

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    Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 Freescale Semiconductor 21 Chapter 3 Reference Design 3.1 Application Outline The presented system is designed to control two par allel connecte d fluorescent lamps. The reference design meets the following performance specification: • Single board solution with MC68HC908 LB8 microcon[...]

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    Ta b l e 3-1. Light Ballast Characteristics Pa r a m et er Unit Va l u e Lamp T ype F18W/33 Input P ower W 8...31 Input Current (230V AC) mA 40...290 Preheat Output F requency kHz 86 Preheat Output Vo l t a g e Vpp 345 Preheat Time ms 900 Running Output F requency Range kHz 50...100 Running Output V oltage Range V 200...235 Input AC V oltage VA C 1[...]

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    FILTE R RECT IFI ER PFC POWER SUPPL Y DRIV ER HALF BRI DG E RESONA NT CIRCU IT DIFFE REN TIAL VOLT AGE FLUOR ESC EN T LAM PS DRIVE R DC -BUS HIGH RESOL UTI ON PWM PWM GENER ATI ON USER IN TE RFA CE MO NITO R MODE LU MINA NCE LEVEL PI REGUL ATO R BRIGH TNE SS LINEA RIZ AT ION DC - BUS V OLT AG E ZERO CROS SIN G TUBE 2 CURRE NT TUBE 1 CUR RE NT MC68H[...]

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    Reference Design Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 24 Freescale Semiconductor the PFC switch in hysteresis current con trol mode or output is used for switch off PWM1 in DCM. Than PWM1 signal is used directly for sw itching the PFC swit ch transistor. 3.3.3 Protection Features During the startup phase and run phase , so[...]

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    Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 Freescale Semiconductor 25 Chapter 4 Hardware Design 4.1 Hardware Implementation This chapter covers the system hardware implementa tio n. The dimmable light ballast board is shown in Figure 4-1 . Figure 4-1. Dimmable Light Ballast - Demo Board 4.2 System Modules The light ballast syste[...]

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    Hardware Design Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 26 Freescale Semiconductor Figure 4-2. Dimmable Light Ballast with Hysteresis PFC HW variation — Hardware Block Diagram 4.2.1 Input and PFC The input and the PFC part provide th e DC-bus voltage to supply the inverter. The schematic for hysteresis current control mode [...]

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    System M odules Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 Freescale Semiconductor 27 signal of the comparator (Comp Out) controls the power switch Q1 through the output buffe r, which consists of transistors Q2, Q3, and Q4, resistors R1 0, R13, R34, R35, R36, and R37, a nd capacitor C7. For discontinuous conduction mod e the co[...]

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    Hardware Design Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 28 Freescale Semiconductor 4.2.2 Inverter The power inverter generates the proper volta ge for the fluorescent tubes. The power inverte r consists of two MOSFET transistors driven by a half-brid ge driver. It incorporates the half-bridge, a resonant circuit, different vo[...]

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    GND 1 2 R19 20R D7 MB R S 1 4 0 GND D6 BAT48 R2 0 10K C16 22nF D G S Q5 IRF830A D G S Q6 IRF830A Vcc 1 HI N 2 LIN 3 COM 4 LO 5 Vs 6 HO 7 VB 8 IC 1 IR 21 0 6 C11 100n F O1 1 O2 2 O3 3 O4 4 O5 5 O6 6 O7 7 O8 8 J2 TU BE C on n ec to r 7 2 L3B DI FF8 R1 6 33R R1 8 33R D3 MUR A 16 0 1 2 C28 470pF 1 KV TO P BOT 1 2 R23 20R D1 0 M BRS140 D9 BAT48 R25 10K [...]

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    Hardware Design Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 30 Freescale Semiconductor 4.2.3 Microcontroller The MC68HC908LB8 microcontroller is the co re of th e application. It processe s the input and feedback signals and generates appropriat e control sign als. The description of the pins follows. The inverter is controlled b[...]

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    TO P GN D BOT Co m p - Co m p Ou t Tu b e Cu r r e n t 1 5V Zer o D et e c t 1 2 3 JP2 Lum ina nc e Le ve l 5V GND Seri al D a t a GN D GN D R2 6 0 0R VD D 1 VSS 2 PT C0/O S C 1 3 PT C1/O S C 2 4 PT C2/SH T DWN /IRQ 5 PT B 0 / T OP 6 PT B 1 / BO T 7 PT B 2 / FAU LT 8 PT B 3 / PW M0 9 PT B 4 / PW M1 10 PTA6 / AD C 5/ TCH0/ KBI6 20 PTA5 / RST/ K BI 5[...]

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    Ta b l e 4-2. J2 Interface Header Pin number Signal 1 +5V 2 PTC2 3 PTC0 4 PT A0 5 GND 6 PT A1 Hardware Design Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 32 Freescale Semiconductor[...]

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    System M odules Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 Freescale Semiconductor 33 4.2.4 Power Supply The function of the switch mode power supply (SMPS) is to feed the inverter and output buffer circuit with 15 V and to supply the micro controller stage by 5 V (see Table 4-3 ). The SMPS is supplied from the DC-bus voltage. I[...]

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    Hardware Design Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 34 Freescale Semiconductor[...]

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    Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 Freescale Semiconductor 35 Chapter 5 Software Design 5.1 Introduction This section describes soft ware features and behavio r of the software in all function modes. The software is described in terms of: • Control Algorithm Description • Software Implementation • Detailed Software[...]

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    Software Design Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 36 Freescale Semiconductor 5.2.1 Power Factor Correction Control PFC control consists of DC-bus voltage control us ing the PI controller, phase shift synchroniza tion, reference sine wave generation and generation of output PFC control signals. It also inclu des the trim[...]

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    Control Algori thm Description Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 Freescale Semiconductor 37 is higher than the generated sine waveform, then the comparator output is in log.1 and PWM1 is switched off. This happens every PWM period and this process is called cycle by cycle limiting . PWM1 operates at a 40 kHz frequency w[...]

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    Software Design Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 38 Freescale Semiconductor level adjustment (brightness linearization). The regulation error is then the input value for the PI regulator. The output value from the PI regulator is the HRP period for half bridge power stage. Input required luminance level adju stment ada[...]

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    Software Implementation Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 Freescale Semiconductor 39 5.3 Software Implementation The general software implementation is illustrated in Figure 5-3 . It incorporates the ma in routine entered from Reset and three interrupt states. T he main routine includes the initializat ion of the microc[...]

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    Software Design Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 40 Freescale Semiconductor The register CONFIG2 sets: – internal oscillator – IRQ interrupt enabled – IRQPUD must be 0 to connect the in ternal pullup resistor between IRQ pin and V dd . • IRQ status and control register INTSCR sets: – IMASK enable IRQ interrup[...]

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    Software Implementation Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 Freescale Semiconductor 41 – PWM clock frequency set to BUSCLK by prescaler bits PRSC0 and PRSC1 • DISMAP is a write-once register which cont rols t he PWM pins to be disabled if an external fault occurs. When this register is written for the first time, it c[...]

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    Software Design Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 42 Freescale Semiconductor For BUSCLKX2 = 8 MHz, the HRPDT= $08 3. Set HRPPERH:HRPPERL to select the desired frequency (e.g. 88 kHz) The period of 88 kHz = 1/88 kHz Output period (seconds) = HRPPERH:HRPPERL / (BUSCLKX2 * 32) then, HRPPERH:HRPPERL = 1/88 kHz * (internal b[...]

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    Software Implementation Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 Freescale Semiconductor 43 5.3.3 Synchronization Interrupt Routine The interrupt procedure is use d for trimming the internal oscillator and for synchro nization of the phase shift of the reference sine wave wit h the mains voltage. A detailed illustratio n of th[...]

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    interrupt void pwm ISR(void) End of subroutine Read new (PW M value from table * sine Gain ) Increment of ta ble index W as end of sine tab. reached ? Table index = 0 yes Set 1ms flag and reset 1m s counter yes Has 1ms g one ? no Reset LDOK to ena ble new PWM reload and clear reload flag Increment 1ms coun ter no Enable PI balla st stage regu lator[...]

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    Software Implementation Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 Freescale Semiconductor 45 5.3.4.1 Fault Detection and Processing The following application faults are detected by the software: • DC-bus under voltage • DC-bus over voltage • Failure of the DC-bus voltage to rea ch the required value within the start time [...]

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    Disable all in terrupts interrupt void faultISR(void) Stop timer and en able tim e r overflow interrupts Stop HRP 1 Blink fault diode Stop PW M Set Vout(PTB7) pin as an output an d set it to l og. 1 Disco nnect i nternal compar ator f rom pin s and powe red off interrupt void timovISR(void) Software Design Dimmable Light Ballast with P o wer Factor[...]

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    Wait for a moment to sta b i lize internal oscillator Disable all inte rrupts RESET Set PWM : - reset sine tab. pointer - PMOD = PWM_MO DULUS - PVAL0 = 0, PVA L1 = 0; - PCTL2 - reload cy cles PWM prescaler, neg ative polarity, disable PWM1, enable PWM0 - DISMA P - disable PWM1 if ext.fault occurs // re sult 0000 0010=0x0 2 - FCR - disable fau lt in[...]

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    Act ual DC-BUS v oltage < DC-BUS start v oltage ? Is enabled PI P FC stage regulator calculation ? Increment required DC -BUS voltag e by ramp step vol ta g e Required DC-BUS v oltage > DC-BUS start voltage ? Required DC-BUS v oltage = DC-BUS start v oltage Calculate PI PFC stag e regu lator for reference sine gain no no Has start time gone ?[...]

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    Decrement ball ast frequency by ra mp step frequency Is preheat fre quency reached? Has 1ms gone? no yes Calculate PI PFC stage regul ator for reference sine gain phase 3 - Go to preheat frequency 3 Has preheat time gone? no phase 4 - Keep for preheat time yes Calculate PI PFC stage regulator for reference sine gain Test DC-BUS v oltage on limits T[...]

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    4 Set Dimming value and Dimming value array to minimal value Set values of PI PFC stage regulator for run mode: - proportionalGain = PI_KP_RUN; - integral Gain = P I_KI_RUN ; Run mode 1 Is enabled PI PFC stage regulator calculation ? yes Test DC-BUS voltage on limits Calculate PI PFC stag e regul at or for reference sine gain yes Control lamp curre[...]

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    Microcontroller Usage Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 Freescale Semiconductor 51 5.5 Microcontroller Usage 5.5.1 Microcontroll er Peripheral Usage 5.5.1.1 High Resolution PWM (HRP) The HRP controls the ballast half-bridge power stage. The module is con figured for frequency mode (constant 50% duty cycle, variable freq[...]

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    Software Design Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 52 Freescale Semiconductor 5.5.3 I/O Usage Table 5-2 summarizes the use of the I/O pins. Ta b l e 5-2. I/O Usage I/O pin Direction Purpose PTC0/OSC1 INPUT OSC1(EXTERNAL OSCILLA T OR IN MONITOR MODE) PTC1/OSC2 - UNUSED PTC2/SHTD WN/ IRQ INPUT IRQ (MAINS ZERO CR OSSING DET[...]

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    Definitions of Consta nts and Variables Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 Freescale Semiconductor 53 5.6.1 System Setup Definitions The following constants can be used t o set up the system behavior, according to require d conditions. 1. #define HW_VAR HYST ...defines HW variation - hysteresis current control mode (HYST[...]

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    Software Design Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 54 Freescale Semiconductor 22. #define MIN_IGNITION_FREQ 45 ...defines the minimum HRP frequency in kHz. 23. #define MAX2PREHEAT_RAMP 100 ...represents the number of frequency ste ps between the maximum HRP frequency and the preheat HRP frequency. 24. #define IGNITION_RA[...]

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    Definitions of Consta nts and Variables Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 Freescale Semiconductor 55 ...represents the integral gain of the PI PFC stag e regulator in run mode. 44. #define PI_SCALE 0 ...represents the scaling factor of the PI PFC stage regulator (2^scale). 45. #define PI_MIN_VAL 0 ...represents the mini[...]

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    Software Design Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 56 Freescale Semiconductor for timing 1 ms intervals. 8. extern tU08 curr_T1; This variable represents the cu rrent in tube 1. 9. extern tU08 curr_T2; This variable represents the cu rrent in tube 2. 10. extern tU08 avg_CurrentT1T2; This variable represents the average v[...]

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    Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 Freescale Semiconductor 57 Chapter 6 Demo Setup WARNING This circuit is powered directly fro m the mains voltage supply. It is dangerous to touch any part of the circuit. Whe n working with such circuits, do not connect any scope or de velopment system without using an isolation transfo[...]

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    Demo Setup Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 58 Freescale Semiconductor • Discontinuous conduction mode for 50 Hz and for input voltage higher than half of DC-Bus voltage — DCM50HzH.s19 • Discontinuous conduction mo de for 60 Hz and for input voltage lower than half of DC-Bus voltage — DCM60HzL.s19 • Discontin[...]

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    Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 Freescale Semiconductor 59 Appendix A. Schematics and Part List A.1 Schematics[...]

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    1 2 R34 0R 1 2 R10 6K8 1 2 R35 0R 1 2 R3 220K C B E Q2 BC846B 1 2 R5 220K 1 2 R7 220K E B C Q3 BC856B R13 620R GND 15V C7 100nF GND PFC Gate D15 BAT48 GND Zero Detect C8 82pF D2 BZV55C5V6 1 4 2 3 L6 CMFIL2 15V/1 5 3 1 4 2 6 7 L1 PFCIND3 GND GND 1 2 C1 10nF 275V X2 1 2 C2 150nF 275V X2 C10 220nF 1 2 C5 4n7 250/1000V Y2 2.7mH 5V R36 0R DC+ 1 DC- 2 AC[...]

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    1 2 R34 0R 1 2 R10 6K8 1 2 R35 0R 1 2 R3 220K C B E Q2 BC846B 1 2 R5 220K 1 2 R7 220K E B C Q3 BC856B R13 620R GND 15V C7 100nF GND PFC Gate D15 BAT48 GND C8 82pF Zero Detect D2 BZV55C5V6 1 4 2 3 L6 CMFIL2 15V/1 5 3 1 4 2 6 7 L1 PFCIND3 GND GND 1 2 C1 10nF 275V X2 1 2 C2 150nF 275V X2 C10 220nF 1 2 C5 4n7 250/1000V Y2 2.7mH 5V R36 0R DC+ 1 DC- 2 AC[...]

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    GND 1 2 R19 20R D7 MBRS140 GND D6 BAT48 R20 10K C16 22nF D G S Q5 IRF830A D G S Q6 IRF830A Vcc 1 HIN 2 LIN 3 COM 4 LO 5 Vs 6 HO 7 VB 8 IC1 IR2106 C11 100nF O1 1 O2 2 O3 3 O4 4 O5 5 O6 6 O7 7 O8 8 J2 TUBE Connector 7 2 L3B DIFF8 R16 33R R18 33R D3 MURA160 1 2 C28 470pF 1KV TOP BOT 1 2 R23 20R D10 MBRS140 D9 BAT48 R25 10K C18 22nF 1 2 C13 1uF 25V GND[...]

  • Страница 63

    TOP GND BOT Comp - Comp Out Tube Current 1 5V Zero Detect 1 2 3 JP2 Luminance Level 5V GND Serial Data GND GND R260 0R VDD 1 VSS 2 PTC0/OSC1 3 PTC1/OSC2 4 PTC2/SHTDWN/IRQ 5 PTB0/TOP 6 PTB1/BOT 7 PTB2/FAULT 8 PTB3/PWM0 9 PTB4/PWM1 10 PTA6/ADC5/TCH0/KBI6 20 PTA5/RST/KBI5 19 PTA4/ADC4/KBI4 18 PTA3/ADC3/KBI3 17 PTA2/ADC2/KBI2 16 PTA1/ADC1/KBI1 15 PTA0/[...]

  • Страница 64

    TOP GND BOT Comp - Tube Current 1 5V Zero Detect 1 2 C29 150nF GND 1 2 3 JP2 Luminance Level 5V GND Serial Data GND GND R260 0R VDD 1 VSS 2 PTC0/OSC1 3 PTC1/OSC2 4 PTC2/SHTDWN/IRQ 5 PTB0/TOP 6 PTB1/BOT 7 PTB2/FAULT 8 PTB3/PWM0 9 PTB4/PWM1 10 PTA6/ADC5/TCH0/KBI6 20 PTA5/RST/KBI5 19 PTA4/ADC4/KBI4 18 PTA3/ADC3/KBI3 17 PTA2/ADC2/KBI2 16 PTA1/ADC1/KBI1[...]

  • Страница 65

    VCC 1 FB 2 DRAIN 3 GND 4 IC3 NCP1010-SOT223 1 2 + C23 1uF 450V 1 2 + C20 22uF 35V 1 2 C24 1nF 25V L8 4.7mH 1 2 + C21 100uF 35V 1 2 C22 1uF 25V GND 1 2 C25 220nF GND 1 2 3 4 U3 SFH6106 GND GND D14 BZV55C13 D12 MURA160 15V/1 GND R32 390R D13 BZV55C5V1 GND GND 15V 5V DCB TL-RAD EZK Figure A-6. Power supply[...]

  • Страница 66

    Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 66 Freescale Semiconductor A.2 Parts List T ab le A-1. Printed Circui t Board P ar ts List DESIGNATORS QUANTITY DESCRIPTION MANUF ACTURE R PART NUMBER C1 1 10nF/275V X2 ANY A CCEPT ABLE - C2 1 150nF/275V X2 ANY A CCEPT ABLE - C3,C26 2 10nF/630V TC356 ANY A CCEPT ABLE - C4 1 22 µ F/450V[...]

  • Страница 67

    Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 Freescale Semiconductor 67 L7 1 1mH CUST OMS - L8 1 4.7mH ANY A CCEPT ABLE 4.7mH - TL-RA D Q1 1 P o wer MOSFET transistor T O-220 INTERNA TIONAL RECTIFIER SPP04N60S5 Q2 1 transistor SO T -23 F AIRCHILD BC846B Q3 1 transistor SO T -23 F AIRCHILD BC856B Q4 1 P ow er MOSFET transistor SO T[...]

  • Страница 68

    Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 68 Freescale Semiconductor[...]

  • Страница 69

    Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 Freescale Semiconductor 69 Appendix B. References 1. Electronic Lamp Ba llast Design (AN1543/D), Motorola 1995 2. MON08 Cyclone User Manual, P&E Microcomputer Systems Inc. 2002 3. Opto-isolation Board User Manual, Freescale 2005 4. DLB_Setup.xls — HRP_Setup Excel sheet 5. DLB-LB8-[...]

  • Страница 70

    Dimmable Light Ballast with P o wer Factor Correction, Rev . 1 70 Freescale Semiconductor[...]

  • Страница 71

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    How to Reach Us: Home Page: www .freescale.com E-mail: support@freescale.com USA/Europe or Location s Not Listed: Freescale Semiconductor T echnical Information Center , CH370 1300 N. Alma School Road Chandler , Arizona 85224 +1-800-521-6274 or +1-480-768- 2130 support@freescale.com Europe, Middle East, and Africa: Freescale Halbleiter Deutschland [...]