Automotive PSoC
®
4: PSoC 4200
Family Datasheet
Document Number: 001-93573 Rev. *E Page 11 of 37
Power
The following power system diagram shows the minimum set of
power supply pins as implemented for PSoC 4200. The system
has one regulator in Active mode for the digital circuitry. There is
no analog regulator; the analog circuits run directly from the
V
DDA
input. There are separate regulators for the Deep Sleep
and Hibernate (lowered power supply and retention) modes.
There is a separate low-noise regulator for the bandgap. The
supply voltage range is 1.71 to 5.5 V with all functions and
circuits operating over that range.
Figure 6. PSoC 4 Power Supply
The PSoC 4200 family allows two distinct modes of power supply
operation: Unregulated External Supply, and Regulated External
Supply modes.
Unregulated External Supply
In this mode, the PSoC 4200 is powered by an External Power
Supply that can be anywhere in the range of 1.8 to 5.5V. This
range is also designed for battery-powered operation, for
instance, the chip can be powered from a battery system that
starts at 3.5V and works down to 1.8V. In this mode, the internal
regulator of the PSoC 4200 supplies the internal logic and the
VCCD output of the PSoC 4200 must be bypassed to ground via
an external Capacitor (in the range of 1 to 1.6 µF; X5R ceramic
or better).
Bypass capacitors must be used from VDDD to ground, typical
practice for systems in this frequency range is to use a capacitor
in the 1 µF range in parallel with a smaller capacitor (0.1 µF for
example). Note that these are simply rules of thumb and that, for
critical applications, the PCB layout, lead inductance, and the
Bypass capacitor parasitic should be simulated to design and
obtain optimal bypassing.
Figure 7. 28-pin SSOP Example
Regulated External Supply
In this mode, PSoC 4200 is powered by an external power supply
that must be within the range of 1.71 to 1.89 V (1.8 ± 5%); note
that this range needs to include power supply ripple too. In this
mode, VCCD, and VDDD pins are all shorted together and
bypassed. The internal regulator is disabled in firmware.
1.8 Volt
Reg
VDDD
VSSD
VDDD
VCCD
Digital
Domain
Table 1. Example of a bypass scheme
Power Supply Bypass Capacitors
VDDD–VSS 0.1 µF ceramic capacitor (C2) plus bulk
capacitor 1 to 10 µF (C1). Total Capacitance
may be greater than 10 µF.
VCCD–VSS 1 µF ceramic capacitor at the VCCD pin (C3)
VREF–VSS
(optional)
The internal bandgap may be bypassed with a
1 µF to 10 µF capacitor. Total capacitance may
be greater than 10 µF.
(GPIO) P3[0]
( GPIO) P0[1]
SSOP
(Top View)
10
11
P1[2]
28
27
26
25
23
22
21
20
19
18
17
2
3
4
5
6
7
8
9
(GPIO)
P1[1
]
(
GPIO
)
(GPIO) P1[7]
(GPIO) P2[2]
(GPIO ) P2[3]
(GPIO ) P2[4]
(GPIO ) P2[5]
(GPIO) 2[6]
( G PIO) P4[3]
( G PIO) P0[0]
( GPIO) P0[2]
( GPIO) P0[3]
( GPIO) P0[6]
(GPIO) P0[7]
XRES
VDDD
VSS1
12
13
14
(GPIO )
P1[0
]
(GPIO)
P3[1
]
(GPIO)
P3[2
]
(GPIO )
P3[3
]
(
GPIO
)
P2[7
]
(GPIO)
P4[2
]
VCCD
(GPIO)
P4[1
]
(GPIO)
P4[0
]
16
15
24
C3 1
µF
VSS
VSS
0.1
µF
C2 C1 1
µF
VSS
P
