STM32F100x4, STM32F100x6, STM32F100x8, STM32F100xB
Revision history
8
Revision history
Table 53. Document revision history
Date
Revision
Changes
12-Oct-2009
1
Initial release.
TFBGA64 package added (see Table 49 and Table 40).
Note 5 modified in Table 4: STM32F100xx pin definitions.
IINJ(PIN) modified in Table 6: Current characteristics. Conditions
removed from Table 25: Low-power mode wakeup timings.
Notes modified in Table 33: I/O static characteristics.
Figure 26: Recommended NRST pin protection modified.
19-Jan-2010
2
Note modified in Table 38: I2C characteristics. Figure 27: I2C bus AC
waveforms and measurement circuit(1) modified.
Table 45: DAC characteristics modified. Figure 35: 12-bit buffered
/non-buffered DAC added.
TIM2, TIM3, TIM4 and TIM15, TIM16 and TIM17 updated.
HDMI-CEC electrical characteristics added.
Values added to:
– Table 12: Maximum current consumption in Run mode, code with
data processing running from Flash
– Table 13: Maximum current consumption in Run mode, code with
data processing running from RAM
– Table 14: STM32F100xxB maximum current consumption in Sleep
mode, code running from Flash or RAM
– Table 15: Typical and maximum current consumptions in Stop and
Standby modes
– Table 18: Peripheral current consumption
– Table 29: EMS characteristics
– Table 30: EMI characteristics
– Table 46: TS characteristics
26-Feb-2010
3
Section 5.3.12: I/O port characteristics modified.
Added figures:
– Figure 12: Maximum current consumption in Run mode versus
frequency (at 3.6 V) - code with data processing running from RAM,
peripherals enabled
– Figure 13: Maximum current consumption in Run mode versus
frequency (at 3.6 V) - code with data processing running from RAM,
peripherals disabled
– Figure 14: Typical current consumption in Stop mode with regulator
in Run mode versus temperature at VDD = 3.3 V and 3.6 V
– Figure 15: Typical current consumption in Stop mode with regulator
in Low-power mode versus temperature at VDD = 3.3 V and 3.6 V
– Figure 16: Typical current consumption in Standby mode versus
temperature at VDD = 3.3 V and 3.6 V
Doc ID 16455 Rev 2
83/84
STMICROELECTRONICS [ ST ]
