參數(shù)資料
型號: ADMC326YR
廠商: Analog Devices, Inc.
英文描述: 28-Lead ROM-Based DSP Motor Controller
中文描述: 28 - ROM的鉛基于DSP的電機控制器
文件頁數(shù): 15/31頁
文件大?。?/td> 219K
代理商: ADMC326YR
ADMC326
–15–
REV. A
For the situation illustrated in Figure 9, the appropriate value
for the PWMSEG register is 0x00A7. In ECM operation, be-
cause each inverter leg is disabled for certain periods of time,
the PWMSEG register is changed based upon the position of
the rotor shaft (motor commutation).
AH
AL
BH
BL
CH
CL
PWMTM
PWMTM
PWMCHA
= PWMCHB
PWMCHA
= PWMCHB
2
3
PWMDT
2
3
PWMDT
Figure 9. An example of PWM signals suitable for ECM
control. PWMCHA = PWMCHB, BH/BL are a crossover pair.
AL, BH, CH and CL outputs are disabled. Operation is in
single update mode.
Gate Drive Unit: PWMGATE Register
The gate drive unit of the PWM controller adds features that
simplify the design of isolated gate drive circuits for PWM
inverters. If a transformer-coupled power device gate drive
amplifier is used, the active PWM signal must be chopped at
a high frequency. The PWMGATE register allows the program-
ming of this high frequency chopping mode. The chopped active
PWM signals may be required for the high-side drivers only, for
the low-side drivers only, or for both the high-side and low-side
switches. Therefore, independent control of this mode for both
high- and low-side switches is included with two separate con-
trol bits in the PWMGATE register.
Typical PWM output signals with high-frequency chopping
enabled on both high-side and low-side signals are shown in
Figure 10. Chopping of the high-side PWM outputs (AH, BH,
and CH) is enabled by setting Bit 8 of the PWMGATE register.
Chopping of the low-side PWM outputs (AL, BL, and CL) is
enabled by setting Bit 9 of the PWMGATE register. The high
chopping frequency is controlled by the 8-bit word (GDCLK)
written to Bits 0 to 7 of the PWMGATE register. The period
and the frequency of this high frequency carrier are:
[
=
×
4
T
GDCLK
f
GDCLK
(
t
f
CHOP
CK
CHOP
CLKOUT
=
×
+
(
)
]
×
+
)
[
]
4
1
1
The
GDCLK
value may range from 0 to 255, corresponding
to a programmable chopping frequency rate from 19.5 kHz to
5 MHz for a 20 MHz CLKOUT rate. The gate drive features
must be programmed before operation of the PWM controller
and typically are not changed during normal operation of the
PWM controller. Following a reset, by default, all bits of the
PWMGATE register are cleared so that high frequency chop-
ping is disabled.
PWMTM
PWMTM
[4
3
(GDCLK+1)
3
t
CK
]
2
3
PWMDT
2
3
PWMDT
PWMCHA
PWMCHA
Figure 10. Typical PWM signals with high frequency gate
chopping enabled on both high-side and low-side switches
(GDCLK is the integer equivalent of the value in Bits 0 to 7
of the PWMGATE register.)
PWM Shutdown
In the event of external fault conditions, it is essential that the
PWM system be instantaneously shut down. Two methods of
sensing a fault condition are provided by the ADMC326. For
the first method, a low level on the
PWMTRIP
pin initiates an
instantaneous, asynchronous (independent of DSP clock) shut-
down of the PWM controller. This places all six PWM outputs in
the OFF state, disables the PWMSYNC pulse and associated
interrupt signal and generates a
PWMTRIP
interrupt signal.
The
PWMTRIP
pin has an internal pull-down resistor so that
even if the pin becomes disconnected, the PWM outputs will be
disabled. The state of the
PWMTRIP
pin can be read from
Bit 0 of the SYSSTAT register.
The second method for detecting a fault condition is through
the I
SENSE
pin in the analog block of the ADMC326. The I
SENSE
pin monitors the feedback signals from a dc bus current sensing
resistor that represents the total current in the motor. When the
voltage of I
SENSE
goes below I
SENSE
trip threshold,
PWMTRIP
will be internally pulled low. The negative edge of the internal
PWMTRIP
will generate a shutdown in the same manner as a
negative edge on pin
PWMTRIP
.
It is possible through software to initiate a PWM shutdown by
writing to the 1-bit read/write PWMSWT register (0x2061).
Writing to this bit generates a PWM shutdown in a manner
identical to the
PWMTRIP
or I
SENSE
pins. Following a PWM
shutdown, it is possible to determine if the shutdown was gener-
ated from hardware or software by reading the same PWMSWT
register. Reading this register also clears it.
Restarting the PWM after a fault condition is detected requires
clearing the fault and reinitializing the PWM. Clearing the fault
requires that
PWMTRIP
returns to a HI state and I
SENSE
returns
to a voltage greater than the I
SENSE
trip threshold. After the fault
has been cleared, the PWM can be restarted by writing to registers
PWMTM, PWMCHA, PWMCHB and PWMCHC. After the fault
is cleared and the PWM registers are initialized, internal timing
of the three-phase timing unit will resume, and the new duty cycle
values will be latched on the next rising edge of PWMSYNC.
PWM Registers
The configuration of the PWM registers is described at the end
of the data sheet. The parameters of the 16-bit PWM Timer is
tabulated in Table V.
ADC OVERVIEW
The ADC of the ADMC326 is based upon the single slope
conversion technique. This approach offers an inherently
monotonic conversion process and, to within the noise and sta-
bility of its components, there will be no missing codes.
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相關(guān)代理商/技術(shù)參數(shù)
參數(shù)描述
ADMC326YR-XXX-YY 制造商:未知廠家 制造商全稱:未知廠家 功能描述:MOTOR CONTROLLER
ADMC328 制造商:AD 制造商全稱:Analog Devices 功能描述:28-Lead ROM-Based DSP Motor Controller with Current Sense
ADMC328TN 制造商:AD 制造商全稱:Analog Devices 功能描述:28-Lead ROM-Based DSP Motor Controller with Current Sense
ADMC328TN-XXX-YY 制造商:AD 制造商全稱:Analog Devices 功能描述:28-Lead ROM-Based DSP Motor Controller with Current Sense
ADMC328TR 制造商:AD 制造商全稱:Analog Devices 功能描述:28-Lead ROM-Based DSP Motor Controller with Current Sense
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