Features: · Fully Digital Operation
· Interfaces with Most Microprocessors
· Wide Power-Frequency Range
· 12-Bit Speed Control Accuracy
· Carrier Frequency Selectable up to 24kHz
· Waveform Stored in Internal ROM
· Double Edged Regular Sampling
· Selectable Minimum Pulse Width and Underlap Time
· DC Injection BrakingPinout
SpecificationsSupply voltage, VDD.................................7V
Voltage on any pin................VSS 0`3V to VDD +0`3V
Current through any I/O pin.....................±10mA
Storage temperature..................65°C to +125°C
Operating temperature range..............40°C to +85°C
The temperature ranges quoted apply to all package types. Many package types are available and extended temperature ranges can be offered for some. Further information is available on request.
Stresses above those listed in the Absolute Maximum Ratings may cause permanent damage to the device. These
are stress ratings only and functional operation of the device at these conditions, or at any other condition above those indicated in the operations section of this specification, is not implied. Exposure to Absolute Maximum Rating conditions for extended periods may affect device reliability.
DescriptionThe SA828 PWM generator has been designed to provide waveforms for the control of variable speed AC machines, uninterruptible power supplies and other forms of power electronic devices which require pulse width modulation as a means of efficient power control.
The six TTL level PWM outputs (Fig. 2)of SA828 control the six switches in a three-phase inverter bridge. This is usually via an external isolation and amplification stage.
The SA828 is fabricated in CMOS for low power consumption.
Information contained within the pulse width modulated sequences controls the shape, power frequency, amplitude, and rotational direction (as defined by the red-yellow-blue phase sequence) of the output waveform. Parameters of SA828 such as the carrier frequency, minimum pulse width, and pulse delay time may be defined during the initialisation of the device. The pulse delay time (underlap) controls the delay between turning on and off the two power switches in each output phase of the inverter bridge, in order to accommodate variations in the turnon and turn-off times of families of power devices.
The SA828 is easily controlled by a microprocessor and its fully-digital generation of PWM waveforms gives unprecedented accuracy and temperature stability. Precision pulse shaping capability allows optimum efficiency with any power circuitry. The SA828 operates as a stand-alone microprocessor peripheral, reading the power waveform directly from an internal ROM and requiring microprocessor intervention only when operating parameters need to be changed.
An 8-bit multiplexed data bus of SA828 is used to receive addresses and data from the microprocessor/controller. This is a standard MOTELTM bus, compatible with most microprocessors/controllers.
Rotational frequency of SA828 is defined to 12 bits for high accuracy and a zero setting is included in order to implement DC injection braking with no software overhead.
SA828 is pin and functionally compatible with the MA828 PWM generator . Two standard wave shapes are available to cover most applications. In addition, any symmetrical wave shape can be integrated on-chip to order.
SA828 Data Sheet
