STR911FM44X6 STMicroelectronics, STR911FM44X6 Datasheet - Page 21
STR911FM44X6
Manufacturer Part Number
STR911FM44X6
Description
MCU 512K FLASH 96K SRAM USB CAN
Manufacturer
STMicroelectronics
Series
STR9r
Datasheet
1.STR910FM32X6.pdf
(73 pages)
Specifications of STR911FM44X6
Core Processor
ARM9
Core Size
32-Bit
Speed
96MHz
Connectivity
CAN, I²C, Microwire, SPI, SSP, UART/USART, USB
Peripherals
Brown-out Detect/Reset, DMA, Motor Control PWM, POR, PWM, WDT
Number Of I /o
40
Program Memory Size
512KB (512K x 8)
Program Memory Type
FLASH
Ram Size
96K x 8
Voltage - Supply (vcc/vdd)
1.65 V ~ 2 V
Data Converters
A/D 8x10b
Oscillator Type
Internal
Operating Temperature
-40°C ~ 85°C
Package / Case
80-LQFP
For Use With
MCBSTR9UME - BOARD EVAL MCBSTR9 + ULINK-MEMCBSTR9U - BOARD EVAL MCBSTR9 + ULINK2MCBSTR9 - BOARD EVAL STM STR9 SERIES
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Eeprom Size
-
Other names
497-5061
497-5061-2
497-5061-2
STR911FM44X6T
497-5061-2
497-5061-2
STR911FM44X6T
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
STR91xF
2.15
an alternate power source, such as a battery, is connected to the VBATT input pin. The current
drawn by the RTC unit on the VBATT pin is very low in this standby mode, I
JTAG interface
An IEEE-1149.1 JTAG interface on the STR91xF provides In-System-Programming (ISP) of all
memory, boundary scan testing of pins, and the capability to debug the CPU.
STR91xF devices are shipped from ST with blank Flash memories. The CPU can only boot
from Flash memory (selection of which Flash bank is programmable). Firmware must be initially
programmed through JTAG into one of these Flash memories before the STR91xF is used.
Six pins are used on this JTAG serial interface. The five signals JTDI, JTDO, JTMS, JTCK, and
JTRSTn are all standard JTAG signals complying with the IEEE-1149.1 specification. The sixth
signal, JRTCK (Return TCK), is an output from the STR91xF and it is used to pace the JTCK
clock signal coming in from the external JTAG test equipment for debugging. The frequency of
the JTCK clock signal coming from the JTAG test equipment must be at least 10 times less than
the ARM966E-S CPU core operating frequency (f
output from the STR91xF and is input to the external JTAG test equipment to hold off transitions
of JTCK until the CPU core is ready, meaning that the JTAG equipment cannot send the next
rising edge of JTCK until the equipment receives a rising edge of JRTCK from the STR91xF.
The JTAG test equipment must be able to interpret the signal JRTCK and perform this adaptive
clocking function. If it is known that the CPU clock will always be at least ten times faster than
the incoming JTCK clock signal, then the JRTCK signal is not needed.
The two die inside the STR91xF (CPU die and Flash memory die) are internally daisy-chained
on the JTAG bus, see
(TAPs), one for boundary scan functions and one for ARM CPU debug. The Flash memory die
has one TAP for program/erase of non-volatile memory. Because these three TAPs are daisy-
chained, only one TAP will converse on the JTAG bus at any given time while the other two
TAPs are in BYPASS mode. The TAP positioning order within this JTAG chain is the boundary
scan TAP first, followed by the ARM debug TAP, followed by the Flash TAP. All three TAP
controllers are reset simultaneously by one of two methods:
●
●
This means that chip-level system resets from watchdog time-out or the assertion of
RESET_INn pin do not affect the operation of any JTAG TAP controller. Only global resets
effect the TAPs.
A chip-level global reset, caused only by a Power-On-Reset (POR) or a Low Voltage
Detect (LVD).
A reset command issued by the external JTAG test equipment. This can be the assertion
of the JTAG JTRSTn input pin on the STR91xF or a JTAG reset command shifted into the
STR91xF serially.
Figure 3 on page
22. The CPU die has two JTAG Test Access Ports
CPUCLK
). To ensure this, the signal JRTCK is
RTC_STBY
Functional overview
.
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