2 manual conventions, Manual conventions -2, High true/low true signal conventions -2 – Motorola DSP56301 User Manual
Page 18: 2 manual conventions, This manual uses the following conventions, See table 1-1
Manual Conventions
1
-2
DSP56301 User’s Manual
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Chapter 6, Host Interface (HI32) HI32 features, signals, architecture, programming
model, reset, interrupts, external host programming model, initialization, and a quick
reference to the HI32 programming model.
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Chapter 7, Enhanced Synchronous Serial Interface (ESSI) Enhancements, data and
control signals, programming model, operating modes, initialization, exceptions, and
GPIO.
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Chapter 8, Serial Communication Interface (SCI) Signals, programming model,
operating modes, reset, initialization, and GPIO.
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Chapter 9, Triple Timer Module Architecture, programming model, and operating
modes of three identical timer devices available for use as internals or event counters.
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Appendix A, Bootstrap Program Bootstrap code for the DSP56301.
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Appendix B, Programming Reference Peripheral addresses, interrupt addresses, and
interrupt priorities for the DSP56301; programming sheets list the contents of the
major DSP56301 registers for programmer’s reference.
1.2
Manual Conventions
This manual uses the following conventions:
n
Bits within registers are always listed from most significant bit (MSB) to least
significant bit (LSB).
n
Bits within a register are indicated AA[n–m], n > m, when more than one bit is
involved in a description. For purposes of description, the bits are presented as if they
are contiguous within a register. However, this is not always the case. Refer to the
programming model diagrams or to the programming sheets to see the exact location
of bits within a register.
n
When a bit is described as “set,” its value is 1. When a bit is described as “cleared,” its
value is 0.
n
The word “assert” means that a high true (active high) signal is pulled high to V
CC
or
that a low true (active low) signal is pulled low to ground. The word “deassert” means
that a high true signal is pulled low to ground or that a low true signal is pulled high to
V
CC
. See Table 1-1.
Table 1-1. High True/Low True Signal Conventions
Signal/Symbol
Logic State
Signal State
Voltage
PIN
1
True
Asserted
Ground
2
PIN
False
Deasserted
V
CC
3