TDA5145 NXP Semiconductors, TDA5145 Datasheet - Page 11
TDA5145
Manufacturer Part Number
TDA5145
Description
Manufacturer
NXP Semiconductors
Datasheet
1.TDA5145.pdf
(24 pages)
Specifications of TDA5145
Operating Temperature Classification
Commercial
Package Type
PDIP
Operating Supply Voltage (min)
4V
Operating Supply Voltage (max)
18V
Lead Free Status / RoHS Status
Not Compliant
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Part Number:
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Manufacturer:
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Quantity:
20 000
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Part Number:
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Philips Semiconductors
provided that will generate commutation pulses when no
zero-crossings in the motor voltage are available.
A timing function is incorporated into the device for internal
timing and for timing of the reverse rotation detection.
The TDA5145 also contains an uncommitted
transconductance amplifier (OTA) that can be used as a
control amplifier. The output is capable of directly driving
an external power transistor.
The TDA5145 is designed for systems with low current
consumption: use of I
output transistors (patented).
Adjustments
The system has been designed in such a way that the
tolerances of the application components are not critical.
However, the approximate values of the following
components must still be determined:
T
This capacitor determines the frequency of the start
oscillator. It is charged and discharged, with a current of
2 A, from 0.05 to 2.2 V and back to 0.05 V. The time
taken to complete one cycle is given by:
t
The start oscillator is reset by a commutation pulse and so
is only active when the system is in the start-up mode. A
pulse from the start oscillator will cause the outputs to
change to the next state (torque in the motor). If the
movement of the motor generates enough EMF the
TDA5145 will run the motor. If the amount of EMF
generated is insufficient, then the motor will move one step
only and will oscillate in its new position. The amplitude of
the oscillation must decrease sufficiently before the arrival
of the next start pulse, to prevent the pulse arriving during
the wrong phase of the oscillation. The oscillation of the
motor is given by:
June 1994
start
HE START CAPACITOR
The start capacitor; this determines the frequency of the
start oscillator.
The two capacitors in the adaptive commutation delay
circuit; these are important in determining the optimum
moment for commutation, depending on the type and
loading of the motor.
The timing capacitor; this provides the system with its
timing signals.
Brushless DC motor drive circuit
= (2.15
C) s (with C in F)
2
(CAP-ST)
L logic, adaptive base drive for the
11
where:
Example: J = 72
and I = 0.5 A; this gives f
then a start frequency of 2 Hz can be chosen or
t = 500 ms, thus C = 0.5/2 = 0.25 F (choose 220 nF).
T
CAP-DC)
In this circuit capacitor CAP-CD is charged during one
commutation period, with an interruption of the charging
current during the diode pulse. During the next
commutation period this capacitor (CAP-CD) is discharged
at twice the charging current. The charging current is
8.1 A and the discharging current 16.2 A; the voltage
range is from 0.9 to 2.2 V. The voltage must stay within
this range at the lowest commutation frequency of
interest, f
If the frequency is lower, then a constant commutation
delay after the zero-crossing is generated by the discharge
from 2.2 to 0.9 V at 16.2 A;
maximum delay = (0.076
Example: nominal commutation frequency = 900 Hz and
the lowest usable frequency = 400 Hz; so:
The other capacitor, CAP-DC, is used to repeat the same
delay by charging and discharging with 15.5 A. The same
value can be chosen as for CAP-CD. Figure 9 illustrates
typical voltage waveforms.
f
C
CAP-CD
osc
HE ADAPTIVE COMMUTATION DELAY
K
I = current (A)
p = number of magnetic pole-pairs
J = inertia J (kg.m
=
t
= torque constant (N.m/A)
=
8.1 10
------------------------- -
---------------------------------- -
2
f 1.3
C1
=
:
K
---------------------- -
6231
------------ -
400
1
t
–
6
J
I p
=
10
=
6231
------------ -
f
2
C1
)
15.6
6
kg.m
osc
(C in nF)
(choose 18 nF)
C) ms (with C in nF)
= 5 Hz. If the damping is high
2
, K = 25
(CAP-CD
Product specification
10
TDA5145
3
N.m/A, p = 6
AND
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