Hard Disk Drive Components - PowerPoint PPT Presentation

1 / 49
About This Presentation
Title:

Hard Disk Drive Components

Description:

Hard disks have been a number of different form factors over the years ... mechanism, similar to that of putting chrome plating on the bumper of the car. ... – PowerPoint PPT presentation

Number of Views:134
Avg rating:3.0/5.0
Slides: 50
Provided by: powayu6
Category:
Tags: components | disk | drive | hard

less

Transcript and Presenter's Notes

Title: Hard Disk Drive Components


1
Hard Disk Drive Components
2
Basic components of a hard drive
  • Disk platters
  • Read/write heads
  • Head actuator mechanisms
  • Spindle motor
  • Logic board
  • Cables connectors
  • Configuration items (such as jumpers switches)

3
Head disk Assembly
  • Platters, spindle motor, heads, head actuator
    mechanisms usually contained in this sealed
    chamber

4
Hard Disk Platters
  • Hard disks have been a number of different form
    factors over the years
  • 3 1/2 inch drives are the most popular for
    desktop some portables
  • Max number of platters in a 3 1/2 inch drive is 11

5
Hard Disk Platters
  • Traditionally made from aluminum alloy
  • Desire for higher density has led to the use of
    platters made of glass (glass ceramic composite)
  • Glass platters offer greater rigidity more
    stable thermally

6
Hard Disk Platters
  • No matter what type of platter is used, the
    platters are covered with a thin layer of
    magnetically retentive substance (called the
    medium) on which magnetic information is stored.
  • Oxide media
  • Thin-film media

7
Oxide media
  • Made of various compounds, oxide being the
    primary active ingredient
  • Put on the disk like syrup, coating the entire
    disk
  • Coating is approx 30 millionths of an inch and is
    made smooth
  • Platters appear to look brownish or amber

8
Oxide media
  • Very sensitive to head-crash during movement of
    operation
  • Very few drives use this technology anymore

9
Thin-film media
  • Thinner, harder more perfectly formed than
    oxide media
  • High-performance medium that enabled a new
    generation of drives to have lower head floating
    heights, which in turn made increase in drive
    density possible

10
Thin-film media
  • Coating is put on the platter using an
    electroplating mechanism, similar to that of
    putting chrome plating on the bumper of the car.
  • Looks silver like the surface of a mirror

11
Thin-film media
  • Great chance of survival of this coming into
    contact with the heads at high speed.
  • Virtually uncrashable!!!!

12
Read/Write Heads
  • See diagram on page 736, fig. 12.6
  • A hard disk has one read/write head for each side
    of the platter
  • The heads are connected on a single movement
    mechanism
  • They move in unison

13
Read/Write Heads
  • Each head is on an actuator arm that is
    spring-loaded to force the head into contact with
    a platter
  • The heads float only a very slight distance above
    the platter
  • When the drive is at rest, the heads are forced
    into direct contact with the platters by spring
    tension

14
Read/Write Heads
  • When the drive is spinning, they hover

15
Read/Write Heads
  • Four types of read/write head designs
  • Ferrite
  • Metal-In-Cap
  • Thin-film
  • Magneto-resistive

16
Ferrite
  • Virtually obsolete
  • Had an iron-oxide core wrapped by passing a
    magnetic field near them
  • Heads were large heavy
  • Required a much higher floating height than today

17
Metal-In-Gap
  • Enhanced version of the ferrite heads
  • Virtually obsolete
  • Have a layer of magnetic alloy, which increased
    the magnetization capability allowed the heads
    tow rite at higher densities

18
Thin Film
  • Created through a photolithographic process
  • Manufactured in the same manner as a
    semiconductor
  • Very narrow controlled head gap that is created
    by sputtering (a process of spreading material
    very thinly on a surface) a hard aluminum material

19
Thin Film
  • The material completely encloses the gap
    protects the area
  • Head is very light can float much closer to the
    platters than previous technologies
  • Writes at much higher densities
  • Magneto-resistive technology taking over

20
Magneto-Resistive
  • Latest in technology highest performance
    available
  • As areal density increases (technology growth
    rate indicator), TF and MIG will disappear
  • Relies on the fact that the resistance of a
    conductor changes slightly when an external
    magnetic field is present

21
Magneto-Resistive
  • Two heads in one - MR heads do not write
  • They are sensors for reading
  • The heads have two separate elements
  • TF for writing
  • MR for reading
  • Each head optimized for its task

22
Magneto-Resistive
  • How do they read?
  • MR heads use a property discovered to exist in
    most conductive materials
  • Their resistance changes when exposed to a
    magnetic field
  • Special alloys are chosen for use due to the
    magnitude of their resistance change in the
    presence of a magnetic field

23
Head Sliders
  • Describes the body of material that supports the
    actual drive head itself.
  • This actually floats or slides over the surface
    of the disk, carrying the head at the correct
    distance from the medium for reading writing

24
Head Sliders
  • Most resemble a catamaran, with two outboard pods
    that float along the surface of the disk media
    a central rudder portion that actually carries
    the head the read/write gap.

25
Head Actuator Mechanisms
  • Moves the heads across the disk positions them
    accurately above the desired cylinder
  • Two basic categories
  • Stepper Motor actuators
  • Voice coil actuators

26
Head Actuator Mechanism
  • A drive using a stepper motor is much less
    reliable than one using a voice coil
  • See page 741, Fig. 12.7
  • Floppy drives use a stepper motor to position
    their heads
  • Accuracy of the stepper is suited to a floppy
    drive, because track densities usually lower

27
Stepper Motors
  • An electrical motor that can step or move from
    position to position, with mechanical dents or
    click-stop positions.
  • Can only stop at predetermined spots
  • Motors sealed outside of the head disk assemble,
    although the spindle of the motor penetrates the
    head disk assembly through a sealed hole

28
Stepper Motors
  • Variety of problems
  • Temperature, largest
  • Cant compensate for changes in the track
    movement due to expansion contraction

29
Voice Coil
  • Used in almost all hard drives today
  • Uses feedback signal from drive to accurately
    determine head positions adjust them
  • Works by pure electromagnetic force
  • Similar to construction of a typical audio speaker

30
Voice Coil
  • Audio speaker uses a stationary magnet surrounded
    by a voice coil which is connected to the
    speakers paper cone
  • When the coil is energized, it moves produces
    sound from the cone

31
Voice Coil
  • In a typical hard disk, the electromagnetic coil
    is attached to the end of the head rack placed
    near a stationary magnet
  • There is no physical contact between the coil
    the magnet
  • It moves by electromagnetic force
  • This force moves the head rack

32
Voice Coil
  • Use a servo-mechanism to move to the desired
    position on the disk
  • Stepper motors move to predetermined spots
  • Not affected by temperature
  • Automatic head parking
  • Heads are positioned by magnetic force, so when
    power removed, mag field disappears heads stop

33
Servo Mechanisms
  • Controls voice coil positioners
  • Three
  • Wedge servo
  • Embedded servo
  • Dedicated servo
  • These enable the head positioner to
  • adjust continuously to be precisely above a given
    cylinder on the disk

34
Wedge servo
  • Page 746, fig 12.8
  • Older technology
  • Touchy with configuration and controller
  • Needed several revolutions before it could
    accurately determine adjust head position
  • No longer in use

35
Embedded servo
  • Page 747, fig 12.9
  • Writes the servo information before the start of
    each sector
  • Allows for positioner circuits to receive
    feedback many times in a single revolution
  • Much faster accurate positioning

36
Embedded servo
  • Every track has its own positioning information
    as well
  • Still need a system that offered continuous servo
    feedback

37
Dedicated servo
  • Servo information is written continuously
    thoughout the entire track, rather than just once
    per track or at the beginning of each sector
  • Uses one side of one of the platters exclusively
    for servo-positioning information

38
Dedicated servo
  • Manufacturer set this up
  • Can tell if drive uses dedicated servo if it has
    an odd number of heads.

39
Air filters
  • Most have two
  • Recirculating filter - filters small particles
    scraped off the platers during takeoffs
    landings
  • Breather filter - allows for pressure
    equalization
  • Heads dont float if pressure not right

40
  • Drives are sensitive to temperature
  • If the drive has been very cold, let it warm up
    before powering on
  • Watch humidity

41
Spindle motor
  • Motor that spins the platters
  • Connected directly to the drive

42
Logic Boards
  • Mounted on the hard drive
  • Contain electronics that control the drives
    spindle head actuator systems present the
    data to the controller

43
Cables Connectors
  • Sever connectors for interfacing to the computer,
    receiving power sometimes grounding to the
    system chassis
  • Three types
  • Interface connectors
  • Power connectors
  • Option ground connector (green wire)

44
Interface connectors
  • Most important
  • Carry data command signals between the system
    the drive

45
Power Connector
  • Usually same 4-pin connector type that is used in
    a floppy disk drive
  • Same power-supply connector plugs into it
  • Most use both 5 12 volt power
  • Red, yellow, 2 black with keyed white end

46
Grounding tab
  • Provides positive ground connection between the
    drive system chassis
  • Most systems mounted to chassis using screws so
    ground wire unnecessary

47
Faceplate or bezel
  • Page 754, fig 12.11
  • Part of case, not the drive

48
Speed of the Drive
  • Average Seek time
  • Page 756
  • Measured in milliseconds - average amount of time
    it takes to move the heads from one cylinder to
    another cylinder a random distance

49
Transfer Rate
Write a Comment
User Comments (0)
About PowerShow.com