CY8C5248LTI-030 Cypress Semiconductor Corp, CY8C5248LTI-030 Datasheet - Page 10
CY8C5248LTI-030
Manufacturer Part Number
CY8C5248LTI-030
Description
Manufacturer
Cypress Semiconductor Corp
Datasheet
1.CY8C5248LTI-030.pdf
(95 pages)
Specifications of CY8C5248LTI-030
Lead Free Status / Rohs Status
Compliant
4.1.2 Cortex-M3 Operating Modes
The Cortex-M3 operates at either the privileged level or the user
level, and in either the thread mode or the handler mode.
Because the handler mode is only enabled at the privileged level,
there are actually only three states, as shown in
Table 4-1. Operational Level
At the user level, access to certain instructions, special registers,
configuration registers, and debugging components is blocked.
Attempts to access them cause a fault exception. At the
privileged level, access to all instructions and registers is
allowed. The processor runs in the handler mode (always at the
privileged level) when handling an exception, and in the thread
mode when not.
Document Number: 001-66236 Rev. *A
Running an exception Handler mode
Running main program Thread mode
The Thumb
performance at Thumb-level code density. This includes 16-bit
and 32-bit instructions. Advanced instructions include:
The Cortex-M3 does not support ARM instructions.
Bit-band support. Atomic bit-level write and read operations.
Unaligned data storage and access. Contiguous storage of
data of different byte lengths.
Operation at two privilege levels (privileged and user) and in
two modes (thread and handler). Some instructions can only
be executed at the privileged level. There are also two stack
pointers: Main (MSP) and Process (PSP). These features
support a multitasking operating system running one or more
user-level processes.
Extensive interrupt and system exception support.
Bit-field control
Hardware multiply and divide
Saturation
If-Then
Wait for events and interrupts
Exclusive access and barrier
Special register access
Condition
®
-2 instruction set, which offers ARM-level
Privileged
Not used
Thread mode
PRELIMINARY
User
Table
4-1.
4.1.3 CPU Registers
The Cortex-M3 CPU registers are listed in
R0-R15 are all 32 bits wide.
Table 4-2. Cortex M3 CPU Registers
R0-R12
R13
R14
R15
xPSR
PRIMASK
FAULTMASK A 1-bit interrupt mask register. When set, it
BASEPRI
Register
PSoC
®
General purpose registers R0-R12 have no
special architecturally defined uses. Most
instructions that specify a general purpose
register specify R0-R12.
R13 is the stack pointer register. It is a banked
register that switches between two 32-bit stack
pointers: the main stack pointer (MSP) and the
process stack pointer (PSP). The PSP is used
only when the CPU operates at the user level in
thread mode. The MSP is used in all other
privilege levels and modes. Bits[0:1] of the SP
are ignored and considered to be 0, so the SP is
always aligned to a word (4 byte) boundary.
R14 is the link register (LR). The LR stores the
return address when a subroutine is called.
R15 is the program counter (PC). Bit 0 of the PC
is ignored and considered to be 0, so
instructions are always aligned to a half word (2
byte) boundary.
The program status registers are divided into
three status registers, which are accessed either
together or separately:
A 1-bit interrupt mask register. When set, it
allows only the nonmaskable interrupt (NMI) and
hard fault exception. All other exceptions and
interrupts are masked.
allows only the NMI. All other exceptions and
interrupts are masked.
A register of up to nine bits that define the
masking priority level. When set, it disables all
interrupts of the same or higher priority value. If
set to 0 then the masking function is disabled.
5: CY8C52 Family Datasheet
Low Registers: Registers R0-R7 are
accessible by all instructions that specify a
general purpose register.
High Registers: Registers R8-R12 are
accessible by all 32-bit instructions that specify
a general purpose register; they are not
accessible by all 16-bit instructions.
Application program status register (APSR)
holds program execution status bits such as
zero, carry, negative, in bits[27:31].
Interrupt program status register (IPSR) holds
the current exception number in bits[0:8].
Execution program status register (EPSR)
holds control bits for interrupt continuable and
IF-THEN instructions in bits[10:15] and
[25:26]. Bit 24 is always set to 1 to indicate
Thumb mode. Trying to clear it causes a fault
exception.
Description
Table
Page 10 of 95
4-2. Registers
Related parts for CY8C5248LTI-030
Image
Part Number
Description
Manufacturer
Datasheet
Request
R
Part Number:
Description:
Programmable System-on-Chip (PSoC)
Manufacturer:
CYPRESS [Cypress Semiconductor]
Datasheet:
Part Number:
Description:
Manufacturer:
Cypress Semiconductor Corp
Datasheet:
Part Number:
Description:
Manufacturer:
Cypress Semiconductor Corp
Datasheet:
Part Number:
Description:
Manufacturer:
Cypress Semiconductor Corp
Datasheet:
Part Number:
Description:
Manufacturer:
Cypress Semiconductor Corp
Datasheet:
Part Number:
Description:
Manufacturer:
Cypress Semiconductor Corp
Datasheet: