Electrical characteristics
Each decoupling capacitor must be placed between each of the three VDD_LV/VSS_LV supply pairs to ensure stable voltage (see
Section 3.4, “Recommended operating conditions).
Table 19. Voltage regulator electrical characteristics
Symbol
C
Parameter
Conditions1
Value2
Unit
Min Typ Max
CREGn
SR — Internal voltage regulator external
capacitance
—
200
RREG SR — Stability capacitor equivalent serial
—
—
resistance
CDEC1 SR — Decoupling capacitance3,4 ballast VDD_BV/VSS_LV pair
400
CDEC2 SR — Decoupling capacitance regulator VDD/VSS pair
10
supply
VMREG CC P Main regulator output voltage
Before trimming
—
After trimming
—
IMREG
SR — Main regulator current provided to
VDD_LV domain
—
—
IMREGINT CC D Main regulator module current
IMREG = 200 mA
—
consumption
IMREG = 0 mA
—
VLPREG CC P Low power regulator output voltage After trimming
—
ILPREG
SR — Low power regulator current provided
to VDD_LV domain
—
—
ILPREGINT CC D Low power regulator module current ILPREG = 15 mA;
—
consumption
TA = 55 °C
—
ILPREG = 0 mA;
—
TA = 55 °C
VULPREG CC P Ultra low power regulator output
Post trimming
—
voltage
IULPREG SR — Ultra low power regulator current
provided to VDD_LV domain
—
—
IULPREGINT CC D Ultra low power regulator module IULPREG = 5 mA;
—
current consumption
TA = 55 °C
IULPREG = 0 mA;
—
TA = 55 °C
IVREGREF CC D Main LVDs and reference current TA = 55 °C
—
consumption (low power and main
regulator switched off)
IVREDLVD12 CC D Main LVD current consumption
TA = 55 °C
—
(switch-off during standby)
IDD_BV
CC D In-rush current on VDD_BV during
power-up
—
—
1 VDD = 3.3 V ± 10% / 5.0 V ± 10%, TA = −40 to 125 °C, unless otherwise specified
2 All values need to be confirmed during device validation.
—
330 nF
—
0.2 W
4705
100
— nF
— nF
1.32 — V
1.28 —
—
150 mA
—
2 mA
—
1
1.23 — V
—
15 mA
—
600 µA
5
TBD
1.23 — V
—
5 mA
—
100 µA
2
TBD
17
— µA
2
TBD µA
— 4006 mA
MPC5607B Microcontroller Data Sheet, Rev. 3
Freescale Semiconductor
31
Preliminary—Subject to Change Without Notice