STM32W108CZ STMicroelectronics, STM32W108CZ Datasheet - Page 42

STM32W108CZ

Manufacturer Part Number

STM32W108CZ

Description

High-performance, IEEE 802.15.4 wireless system-on-chip with embedded Flash memory

Manufacturer

STMicroelectronics

Datasheet

1.STM32W108CC.pdf (232 pages)

Specifications of STM32W108CZ

Receive Current (w/ Cpu)

27 mA

Transmit Current (w/ Cpu, +3 Dbm Tx)

31 mA

Low Deep Sleep Current, With Retained Ram And Gpio

400 nA/800 nA with/without sleep timer

Standard Arm Debug Capabilities

Flash patch & breakpoint; data watchpoint & trace; instrumentation trace macrocell

Single Voltage Operation

2.1-3.6 V with internal 1.8 V and 1.25 V regulators

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System modules

6.3.1

6.3.2

6.3.3

6.3.4

42/232

High-frequency internal RC oscillator (OSCHF)

The high-frequency RC oscillator (OSCHF) is used as the default system clock source when

power is applied to the core domain. The nominal frequency coming out of reset is 12 MHz.

Most peripherals, excluding the radio peripheral, are fully functional using the OSCHF clock

source. Application software must be aware that peripherals are clocked at different speeds

depending on whether OSCHF or OSC24M is being used. Since the frequency step of

OSCHF is 0.5 MHz and the high-frequency crystal oscillator is used for calibration, the

calibrated accuracy of OSCHF is ±250 kHz ±40 ppm. The UART and ADC peripherals may

not be usable due to the lower accuracy of the OSCHF frequency.

See also

High-frequency crystal oscillator (OSC24M)

The high-frequency crystal oscillator (OSC24M) requires an external 24 MHz crystal with an

accuracy of ±40 ppm. Based upon the application's bill of materials and current

consumption requirements, the external crystal may cover a range of ESR requirements.

The crystal oscillator has a software-programmable bias circuit to minimize current

consumption. ST software configures the bias circuit for minimum current consumption.

All peripherals including the radio peripheral are fully functional using the OSC24M clock

source. Application software must be aware that peripherals are clocked at different speeds

depending on whether OSCHF or OSC24M is being used.

If the 24 MHz crystal fails, a hardware failover mechanism forces the system to switch back

to the high-frequency RC oscillator as the main clock source, and a non-maskable interrupt

(NMI) is signaled to the ARM® Cortex-M3 NVIC.

See also

Low-frequency internal RC oscillator (OSCRC)

A low-frequency RC oscillator (OSCRC) is provided as an internal timing reference. The

nominal frequency coming out of reset is 10 kHz, and ST software calibrates this clock to

10 kHz. From the tuned 10 kHz oscillator (OSCRC) ST software calibrates a fractional-N

divider to produce a 1 kHz reference clock, CLK1K.

See also

Low-frequency crystal oscillator (OSC32K)

A low-frequency 32.768 kHz crystal oscillator (OSC32K) is provided as an optional timing

reference for on-chip timers. This oscillator is designed for use with an external watch

crystal.

See also

Section 14.5.1: High frequency internal clock characteristics on page

Section 14.5.2: High frequency external clock characteristics on page

Section 14.5.3: Low frequency internal clock characteristics on page

Section 14.5.4: Low frequency external clock characteristics on page

STM32W108HB STM32W108CC STM32W108CB STM32W108CZ

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STM32W108CZ STMicroelectronics, STM32W108CZ Datasheet - Page 42

STM32W108CZ

Specifications of STM32W108CZ

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