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LS7362 Fiches technique(PDF) 2 Page - LSI Computer Systems

No de pièce LS7362
Description  BRUSHLESS DC MOTOR COMMUTATOR / CONTROLLER
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Site Internet  http://www.lsicsi.com
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LS7362 Fiches technique(HTML) 2 Page - LSI Computer Systems

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7362 110515 2
FORWARD/REVERSE (Pin 19)
This pin acts to modify the input to output sequence such that
when brought from high to low or low to high the direction of
rotation will reverse. An internal pull up resistor is provided at
Pin 19 causing a logic one when left open.
SENSE INPUTS (Pins 15, 16, 17)
These inputs provide control of the output commutation
sequence as shown in Table III. S1, S2, S3 originate in the
position sensors of the motor and must sequence in cycle
code order. Hall switch "pull-up" resistors are provided at Pins
15, 16 and 17. The positive supply of the Hall devices should
be common to the chip VSS.
BRAKE (Pin 9)
A high level applied to this input unconditionally turns off
outputs 1, 2 and 3 and turns on outputs 4,5 and 6 (See Figure
1). Transistors Q101, Q102 and Q103 cut off causing Q107,
Q108 and Q109 to cut off and transistors Q104, Q105 and
Q106 turn on, shorting the windings together. The BRAKE
has priority over all other inputs. An internal pull down resistor
is provided at Pin 9 causing no braking when left open.
(Center- tapped motor configuration requires a power supply
disconnect transistor controlled by the BRAKE signal - See
Figure 3.)
ENABLE (Pin 10)
A high level on this input permits the output to sequence as
in Table III, while a low disables all external output drivers.
An internal "pull up" resistor is provided at Pin 10, enabling
when left open. Positive edges at this input will reset the
over-current flip-flop. When the VTRIP input (Pin 13) is
connected to VDD and the OSCILLATOR input (Pin14) is tied
to VSS, the ENABLE input can be used for PWM Output
drive. In this configuration, PWM is applied to all Output
drivers.
OVERCURRENT SENSE (Pin 12)
This input provides the user a way of protecting the motor
winding, drivers and power supply from an overload
condition. The user provides a fractional ohm resistor
between the negative supply and the common emitters of the
NPN drivers. This point is connected to one end of a
potentiometer (e.g. 100k Ohms), the other end of which is
connected to the positive supply. The wiper pickoff is -
adjusted so that all outputs are disabled for currents greater
than the limit. The action of the input is to disable all external
output drivers. When BRAKE exists, OVER-CURRENT
SENSE will be overridden. The over-current circuitry latches
the over-current condition. The latch may be reset by the
positive edge of either the saw-tooth OSCILLATOR or the
ENABLE input. When using the ENABLE input as a chopped
input, the OSCILLATOR pin should be held at VSS. When the
ENABLE input is held high, the OSCILLATOR must be used
to reset the over-current latch.
the VTRIP input in conjunction with the OSCILLATOR is to
provide variable speed adjustment for the motor by means of
PWM of the low-side drivers for VSS greater than 7V. Below
VSS = 7V, the IC may only be used as a commutator.
(See Note).
Note: Below VSS = 7V, the OSC saw-tooth amplitude is too
small to allow proper operation of the PWM circuitry.
VTRIP (Pin 13)
This pin is used in conjunction with the saw-tooth OSC input.
When the voltage level applied to VTRIP is more negative
than the waveform at the OSC input, the low-side drivers will
be enabled as shown in Table 3. When VTRIP is more
positive than the saw-tooth OSC waveform the low side
drivers are disabled. The saw-tooth waveform at the OSC
input typically varies from 0.5
5VSS to VSS – 2V. The purpose of
OSCILLATOR (Pin 14)
A resistor and capacitor connected to this pin (See Fig. 6)
provide the timing components for a saw-tooth OSCILLATOR.
The signal generated is used in conjunction with VTRIP to
provide PWM for variable speed applications and to reset the
over-current condition.
OUTPUTS 1, 2, 3 (Pin 2, 3, 4)
These open drain outputs are enabled as shown in Table III
and provide base current when the COMMON (Pin 5) is tied to
VSS. These outputs provide commutation only for the high-side
drivers. They are not pulse width modulated to control speed.
OUTPUTS 4, 5, 6 (Pin 6, 7, 8)
These open drain outputs are enabled as in Table III and
provide base current to NPN transistors when the COMMON
is tied to VSS. They provide commutation and are pulse width
modulated to provide speed control.
COMMON (Pin 5)
The COMMON is connected to VSS for driving low-side drivers
and high-side level converters.
VSS , VDD (Pins 11, 18)
Supply voltage positive and negative terminals.
TYPICAL CIRCUIT OPERATION:
Figure
1
indicates an application
using
bipolar
power
transistors. The oscillator is used for motor speed control as
explained under VTRIP. Only low-side drive transistors are
pulse width modulated during speed control. The outputs turn
on in pairs (See Table III). For example, two separate paths
are turned on when Q8 and Q4 are on. One path is from the
positive supply through Q8, R1 and the base emitter junction
of Q101. The second is from the positive supply through Q4,
R14, the base emitter junction of Q105 and the fractional ohm
resistor to ground. The current in the first path is determined
by the power supply voltage, the impedance of Q8, the value
of R1 and the voltage drop across the base-emitter junction of
Q101 (0.7V for a single transistor or 1.4V for a Darlington
Transistor). The current in the second path is determined by
the power supply voltage, the impedance of Q4, the value of
R14 and the voltage drop across the base-emitter junction of
Q105. Table I provides the recommended value for R1; R2,
R3, R13, R14, and R15 are the same value.
Figure 2 indicates an application where Power FETs are used.
The nominal power supply for the LS7362 in this configuration
is 15V so that the low side N channel Power FET drivers will
have 15V of gate drive. Resistors R8, R10 and R12 are the
gate capacitance discharge resistors. Table II indicates the
minimum value of R13( =R14 =R15) needed as a function of
output drive voltage for the low-side drivers.


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