English dropdown-ico

Freescale Semiconductor DRM079 manual

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34

Go to page of

Similar user manuals

A good user manual

The rules should oblige the seller to give the purchaser an operating instrucion of Freescale Semiconductor DRM079, along with an item. The lack of an instruction or false information given to customer shall constitute grounds to apply for a complaint because of nonconformity of goods with the contract. In accordance with the law, a customer can receive an instruction in non-paper form; lately graphic and electronic forms of the manuals, as well as instructional videos have been majorly used. A necessary precondition for this is the unmistakable, legible character of an instruction.

What is an instruction?

The term originates from the Latin word „instructio”, which means organizing. Therefore, in an instruction of Freescale Semiconductor DRM079 one could find a process description. An instruction's purpose is to teach, to ease the start-up and an item's use or performance of certain activities. An instruction is a compilation of information about an item/a service, it is a clue.

Unfortunately, only a few customers devote their time to read an instruction of Freescale Semiconductor DRM079. A good user manual introduces us to a number of additional functionalities of the purchased item, and also helps us to avoid the formation of most of the defects.

What should a perfect user manual contain?

First and foremost, an user manual of Freescale Semiconductor DRM079 should contain:
- informations concerning technical data of Freescale Semiconductor DRM079
- name of the manufacturer and a year of construction of the Freescale Semiconductor DRM079 item
- rules of operation, control and maintenance of the Freescale Semiconductor DRM079 item
- safety signs and mark certificates which confirm compatibility with appropriate standards

Why don't we read the manuals?

Usually it results from the lack of time and certainty about functionalities of purchased items. Unfortunately, networking and start-up of Freescale Semiconductor DRM079 alone are not enough. An instruction contains a number of clues concerning respective functionalities, safety rules, maintenance methods (what means should be used), eventual defects of Freescale Semiconductor DRM079, and methods of problem resolution. Eventually, when one still can't find the answer to his problems, he will be directed to the Freescale Semiconductor service. Lately animated manuals and instructional videos are quite popular among customers. These kinds of user manuals are effective; they assure that a customer will familiarize himself with the whole material, and won't skip complicated, technical information of Freescale Semiconductor DRM079.

Why one should read the manuals?

It is mostly in the manuals where we will find the details concerning construction and possibility of the Freescale Semiconductor DRM079 item, and its use of respective accessory, as well as information concerning all the functions and facilities.

After a successful purchase of an item one should find a moment and get to know with every part of an instruction. Currently the manuals are carefully prearranged and translated, so they could be fully understood by its users. The manuals will serve as an informational aid.

Table of contents for the manual

  • Page 1

    RS08 Micr ocontr oller s freescale.com DRM079 Rev. 0 5/2006 Designer Reference Manual Variable Speed DC Fan Control using the MC9RS08KA2[...]

  • Page 2

    [...]

  • Page 3

    V ariable Speed DC F an Control using the MC9RS08KA2, Rev . 0 Freescale Semiconductor 3 Variable Speed DC Fan Control using the MC9RS08KA2 Designer Reference Manual by: Vincent Ko Freescale Semiconductor, Inc. Hong Kong To provide the most up-to-date information, the revisi on of our docume nts on the World Wide Web will be the most current. Your p[...]

  • Page 4

    Revision History V ar iable Speed DC Fan Contr ol using the MC9RS08KA2, Rev . 0 4 Freescale Semiconductor[...]

  • Page 5

    V ar iable Speed DC Fan Contr ol using the MC9RS08KA2, Rev . 0 Freescale Semiconductor 5 Table of Contents Chapter 1 Introduction 1.1 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 1.2 Freescale’s New Generation Ultra Low Cost MCU . . . . . . . . . .[...]

  • Page 6

    Table of Contents V ar iable Speed DC Fan Contr ol using the MC9RS08KA2, Rev . 0 6 Freescale Semiconductor[...]

  • Page 7

    V ar iable Speed DC Fan Contr ol using the MC9RS08KA2, Rev . 0 Freescale Semiconductor 7 Chapter 1 Introduction 1.1 Introduction This document describes the imp lementation of a DC brushless fan controller using the Freescale ultra low cost MC9RS08KA2 8-bit microcontroller (MCU). The design contains a temperature sensor the MCU reads with control o[...]

  • Page 8

    Introduction V ar iable Speed DC Fan Contr ol using the MC9RS08KA2, Rev . 0 8 Freescale Semiconductor 1.2 Freescale’s New Genera tion Ultra Low Cost MCU The MC9RS08KA2 microcontroller unit (MCU) is an extremely low cost, small pin count device for home appliances, toys, and small g eometry applications, such as a DC fan controller. This device is[...]

  • Page 9

    Bi-Phase BLDC Motor V ar iable Speed DC Fan Contr ol using the MC9RS08KA2, Rev . 0 Freescale Semiconductor 9 1.4 Bi-Phase BLDC Motor The brushless DC motor (BLDC) design for DC fan is commonly consist of a permanent magnet attached on the rotor and the stator phase co il windings are mounted on the moto r shaft as illustrated in Figure 1-2 . The BL[...]

  • Page 10

    Introduction V ar iable Speed DC Fan Contr ol using the MC9RS08KA2, Rev . 0 10 Freescale Semiconductor[...]

  • Page 11

    Commutation V ar iable Speed DC Fan Contr ol using the MC9RS08KA2, Rev . 0 Freescale Semiconductor 11 Chapter 2 Motor Control 2.1 Commutation The typical bi-phase BLDC has one pole-pair per phase. Each commuta tion rotates the rotor by 90 degrees and four commutation ste ps complete a mechan ical revolution. Each pole-pair is implemented by two coi[...]

  • Page 12

    Motor Control V ar iable Speed DC Fan Contr ol using the MC9RS08KA2, Rev . 0 12 Freescale Semiconductor 2.3 Commutation Waveforms In general, in a bi-phase motor design, alternate co ils are tied together and give a single connection to the driver. In this design, the driver conne ction for coil A and coil C is called L1 (see Figure 2-1 ). Similarl[...]

  • Page 13

    Motor Startup V ar iable Speed DC Fan Contr ol using the MC9RS08KA2, Rev . 0 Freescale Semiconductor 13 Dramatic changes in the dead-time val ue will cause the motor to stall. In this design a software loop in the MCU will control the dead-time variation. Even with the drama tic change in the temperature sensor reading, the software loop will only [...]

  • Page 14

    Motor Control V ar iable Speed DC Fan Contr ol using the MC9RS08KA2, Rev . 0 14 Freescale Semiconductor[...]

  • Page 15

    Block Diagram V ar iable Speed DC Fan Contr ol using the MC9RS08KA2, Rev . 0 Freescale Semiconductor 15 Chapter 3 Implementation 3.1 Block Diagram The block diagram of the DC fan design is illustrated in Figure 3-1 . A 12V low cost bi-phase BLDC motor is used in this application. The MCU performs alter nate outputs to the two NPN transistors that d[...]

  • Page 16

    Implementation V ar iable Speed DC Fan Contr ol using the MC9RS08KA2, Rev . 0 16 Freescale Semiconductor Hall sensor output is conn ected to the MCU’s GP IO port, PTA2, wh ich has a programmable edge trigger keyboard interrupt (KBI). The programmable e dge trigger feature provides an effective way to monitor the Hall sensor signal. As mentioned i[...]

  • Page 17

    Control Loop V ar iable Speed DC Fan Contr ol using the MC9RS08KA2, Rev . 0 Freescale Semiconductor 17 Figure 3-2. Firmware Control Loop START TargetPWMPeriod = L ongest ActualPWMPeriod = Longest Drive L1 De-energized coils = DeadTime Drive L2 Read Temp. Sensor Read Temp. Sensor 128ms? Update TargetPWMPeriod Increment DeadTime Target > Actual? T[...]

  • Page 18

    Implementation V ar iable Speed DC Fan Contr ol using the MC9RS08KA2, Rev . 0 18 Freescale Semiconductor 3.4 Temperature Sensor Measurement The temperature sensor measurement is perfo rmed based on the methodology of an emulated ADC described in the applica tion note, AN3266 “Getting Started with RS08”. Figure 3-3. Emulated ADC Schematic The sc[...]

  • Page 19

    Temperature Sensor Measurement V ar iable Speed DC Fan Contr ol using the MC9RS08KA2, Rev . 0 Freescale Semiconductor 19 Table 3-2 shows the entire dynamic range of the temper ature sensor voltage can be covered by about 44 timer counts. For convenience, the timer overflow period is set to 63, which is identical to the size of the paging window ($0[...]

  • Page 20

    Implementation V ar iable Speed DC Fan Contr ol using the MC9RS08KA2, Rev . 0 20 Freescale Semiconductor As described in the previous section the ove rall dead-time duration should be deterministic, the double WAIT statements in the sub routine can ensure the execution time to be mostly constant. When the MCU is woken up from the first WAIT (whi ch[...]

  • Page 21

    Temperature Sensor Measurement V ar iable Speed DC Fan Contr ol using the MC9RS08KA2, Rev . 0 Freescale Semiconductor 21 T able 3-3. T emperature Conver sion T able Temperatu re (°C) Channel Resistan ce (k Ω ) (from sensor data sheet) Voltage across Sensor (V) Predefined Motor Speed (rpm) Target PWM Period (Timer Counts (1) ) NO TES: 1. The reso[...]

  • Page 22

    Implementation V ar iable Speed DC Fan Contr ol using the MC9RS08KA2, Rev . 0 22 Freescale Semiconductor[...]

  • Page 23

    Temperature Sensor Measurement V ar iable Speed DC Fan Contr ol using the MC9RS08KA2, Rev . 0 Freescale Semiconductor 23 Appendix A. Schematic R2 1 2 10K 220 R1 1 2 C2 1 2 2u2F/25V C3 1 2 2u2F/25V R8 12 1K5 22nF C7 1 2 10K VR1 1 2 3 NDS7002A Q3 1 2 3 4K7(1%) R10 1 2 PA3/AO/BKGD PA2/K2/RST VDD VSS PA5/K5 PA4/K4 PA1/K1/A- PA0/K0/A+ 9RS08KA2DN U1 1 2 [...]

  • Page 24

    Implementation V ar iable Speed DC Fan Contr ol using the MC9RS08KA2, Rev . 0 24 Freescale Semiconductor[...]

  • Page 25

    Temperature Sensor Measurement V ar iable Speed DC Fan Contr ol using the MC9RS08KA2, Rev . 0 Freescale Semiconductor 25 Appendix B. Program Listing ;************************************************************** ; ; (c) copyright Freescale Semiconductor. 2006 ; ALL RIGHTS RESERVED ; ;************************************************************** ;[...]

  • Page 26

    Implementation V ar iable Speed DC Fan Contr ol using the MC9RS08KA2, Rev . 0 26 Freescale Semiconductor MTIM_TCLK_FALLING equ $20 MTIM_TCLK_RISING equ $30 ;========================================================================= ; ACMP Definition ;========================================================================= ACMP_OUTPUT_FALLING equ $0[...]

  • Page 27

    Temperature Sensor Measurement V ar iable Speed DC Fan Contr ol using the MC9RS08KA2, Rev . 0 Freescale Semiconductor 27 TargetPeriod ds.b 1 ActualPeriod ds.b 1 DriveTime ds.b 1 SensorReading ds.b 1 MotorRunning ds.b 1 org RAMStart ; variable/data section org ROMStart ; code section main: Entry: ;----------------------------------------------------[...]

  • Page 28

    Implementation V ar iable Speed DC Fan Contr ol using the MC9RS08KA2, Rev . 0 28 Freescale Semiconductor sta KBIES ;HALL rising Edge Trigger sta KBIPE ;KBI Enable ;------------------------------------------------------- ;Config MTIM ; ;Timer prescalar=256 -> Timer clk = 16kHz ;Bus = 4MHz ;Max OF period = 16.384ms ;Timer resolution = 64us ;------[...]

  • Page 29

    Temperature Sensor Measurement V ar iable Speed DC Fan Contr ol using the MC9RS08KA2, Rev . 0 Freescale Semiconductor 29 ;5) Read Temp Sensor Again bsr ReadSensor ; Read Sensor value ;6) Dead time control StartTimer ;7) During the dead time, update dead time period every 128ms brclr SRTISC_RTIF, MAP_ADDR_6(SRTISC), UpdateLater; Update PWM duty cycl[...]

  • Page 30

    Implementation V ar iable Speed DC Fan Contr ol using the MC9RS08KA2, Rev . 0 30 Freescale Semiconductor ; X indicate the coil to be driven ;%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% SetPWM: mov #255, MTIMMOD ; OF period mov #(mMTIMSC_TRST|mMTIMSC_TOIE), MTIMSC; Reset and Start Timer lda #20 mov #(mKBISC_KBIE), KBI[...]

  • Page 31

    Temperature Sensor Measurement V ar iable Speed DC Fan Contr ol using the MC9RS08KA2, Rev . 0 Freescale Semiconductor 31 NoReading: mov #$00, SensorReading ; Smallest Number clr ACMPSC ; disable ACMP mov #(mMTIMSC_TSTP|mMTIMSC_TRST), MTIMSC ; mask interrupt and clear flag mov #(MTIM_BUS_CLK|MTIM_DIV_256), MTIMCLK; Reset Timer resolution rts ;%%%%%%[...]

  • Page 32

    Implementation V ar iable Speed DC Fan Contr ol using the MC9RS08KA2, Rev . 0 32 Freescale Semiconductor lda #255 Quiet: bclr BUZZER, PTAD ; Clear buzzer mov #30, MTIMMOD mov #(mMTIMSC_TRST|mMTIMSC_TOIE), MTIMSC; Reset and Start Timer wait mov #(mMTIMSC_TSTP|mMTIMSC_TRST), MTIMSC; mask interrupt and clear flag sta MAP_ADDR_6(SRS) ; Bump COP dbnza Q[...]

  • Page 33

    [...]

  • Page 34

    How t o Reach Us: Home P age: www .freescale.com E-mail: suppor t@freescale.com USA/Eur ope or Locatio ns Not Listed: F reescale Semiconductor T echnical Information Center, CH370 1300 N. Alma School Road Chandler , Arizona 85224 +1-800-521-6274 or +1-480-768-2130 suppor t@freescale.com Europe, Middle East, and Africa: F reescale Halbleiter Deutsch[...]