ADMCF328BRZ Analog Devices Inc, ADMCF328BRZ Datasheet - Page 12
ADMCF328BRZ
Manufacturer Part Number
ADMCF328BRZ
Description
Manufacturer
Analog Devices Inc
Datasheet
1.ADMCF328BRZ.pdf
(36 pages)
Specifications of ADMCF328BRZ
Operating Current
123mA
Operating Temperature Classification
Industrial
Package Type
SOIC W
Operating Supply Voltage (min)
-0.3V
Operating Supply Voltage (max)
7V
Lead Free Status / Rohs Status
Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
ADMCF328BRZ
Manufacturer:
ADI/亚德诺
Quantity:
20 000
ADMCF328
A functional block diagram of the PWM controller is shown in
Figure 6. The generation of the six output PWM signals on pins
AH to CL is controlled by four important blocks:
• The three-phase PWM timing unit, which is the core of the
• The output control unit allows the redirection of the outputs
• The GATE drive unit provides the high chopping frequency
• The PWM shutdown controller manages the three PWM
• The PWM controller is driven by a clock at the same frequency
Three-Phase Timing Unit
The 16-bit three-phase timing unit is the core of the PWM con-
troller and produces three pairs of pulsewidth modulated signals
with high resolution and minimal processor overhead. There are
four main configuration registers (PWMTM, PWMDT, PWMPD
and PWMSYNCWT) that determine the fundamental charac-
teristics of the PWM outputs. In addition, the operating mode
of the PWM (single or double update mode) is selected by Bit 6
PWM controller, generates three pairs of complemented and
dead-time-adjusted center-based PWM signals.
of the three-phase timing unit for each channel to either the
high side or the low side output. In addition, the output con-
trol unit allows individual enabling/disabling of each of the six
PWM output signals.
and its subsequent mixing with the PWM signals.
Shutdown Modes (via the PWMTRIP pin, the analog block
or the PWMSWT register) and generates the correct RE-
SET signal for the Timing Unit.
as the DSP instruction rate, CLKOUT, and is capable of
generating two interrupts to the DSP core. One interrupt is
generated on the occurrence of a PWMSYNC pulse, and
the other is generated on the occurrence of any PWM shut-
down action.
PWM CONFIGURATION
PWMTM (15...0)
PWMDT (9...0)
PWMPD (15...0)
PWMSYNCWT (7...0)
MODECTRL (6)
TO INTERRUPT
CONTROLLER
REGISTERS
PWMSYNC
PWMTRIP
CLK
THREE-PHASE
PWM TIMING
SYNC
UNIT
Figure 6. Overview of the PWM Controller of the ADMCF328
PWM DUTY CYCLE
PWMCHA (15...0)
PWMCHB (15...0)
PWMCHC (15...0)
RESET
REGISTERS
PWM SHUTDOWN CONTROLLER
–12–
of the MODECTRL register. These registers, in conjunction with
the three 16-bit duty cycle registers (PWMCHA, PWMCHB and
PWMCHC), control the output of the three-phase timing unit.
PWM Switching Frequency: PWMTM Register
The PWM switching frequency is controlled by the PWM
period register, PWMTM. The fundamental timing unit of
the PWM controller is t
CLKOUT frequency (DSP instruction rate). Therefore, for a
20 MHz CLKOUT, the fundamental time increment is 50 ns.
The value written to the PWMTM register is effectively the
number of t
required PWMTM value is a function of the desired PWM
switching frequency (f
Therefore, the PWM switching period, T
For example, for a 20 MHz CLKOUT and a desired PWM
switching frequency of 10 kHz (T
to load into the PWMTM register is:
The largest value that can be written to the 16-bit PWMTM
register is 0xFFFF = 65,535, which corresponds to a minimum
PWM switching frequency of:
for a CLKOUT frequency of 20 MHz.
OR
PWMSEG (8...0)
CONTROL
OUTPUT
SYNC
UNIT
PWMSWT (0)
PWMTM
CK
clock increments in half a PWM period. The
PWMTM
f
PWM,min
T
S
PWMGATE (9...0)
CURRENT
PWM
=
=
OVER
TRIP
2
DRIVE
CK
2
=
GATE
UNIT
CLK
) and is given by:
20
×
×
=
2
= 1/f
20
10
PWMTM
2
×
×
ANALOG BLOCK
f
CLKOUT
65 535
×
×
10
×
CLKOUT
S
10
,
f
10
6
PWM
CLKOUT
= 100 µs), the correct value
6
3
1000
=
=
×
where f
S
153
, can be written as:
t
f
AH
AL
BL
CL
CK
BH
CH
PWMTRIP
f
I
CLKIN
SENSE
PWM
=
Hz
0 3 8
x E
CLKOUT
REV. A
is the
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