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CP2112 Datasheet, PDF (18/22 Pages) Silicon Laboratories – SINGLE-CHIP HID USB TO SMBUS MASTER BRIDGE
CP2112
9. Voltage Regulator
The CP2112 includes an on-chip 5.0 to 3.45 V voltage regulator. This allows the CP2112 to be configured as either
a USB bus-powered device or a USB self-powered device. A typical connection diagram of the device in a bus-
powered application using the regulator is shown in Figure 10. When enabled, the voltage regulator output appears
on the VDD pin and can be used to power external devices. See Table 5 for the voltage regulator electrical
characteristics.
If the regulator is used to provide VDD in a self-powered application, use the same connections from Figure 10, but
connect REGIN to an onboard 5 V supply, and disconnect it from the VBUS pin. In addition, if REGIN may be un-
powered while VBUS is 5 V, a resistor divider shown in Note 5 of Figure 11 is required to meet the absolute
maximum voltage on VBUS specification in Table 1.
VIO Note 2
Note 3
3.3 V Power
1-5 F
0.1 F
VIO
VDD
CP2112
RST
SUSPEND
SUSPEND
VPP
4.7 k
Suspend
Signals
Note 4
4.7 F
USB
Connector
VBUS
D+
D-
GND
1 F
REGIN
GND
VBUS
D+
D-
Note 1
SDA
SCL
GPIO.0
GPIO.1
GPIO.2
GPIO.3
GPIO.4
GPIO.5
GPIO.6
GPIO.7
GPIO.8
To
SMBus
Slave
Devices
GPIO
Signals
Note 1 : Avalanche transient voltage suppression diodes compatible with Full-speed USB should be
added at the connector for ESD protection. Use Littelfuse p/n SP0503BAHT or equivalent.
Note 2 : An external pull-up is not required, but can be added for noise immunity.
Note 3 : VIO can be connected directly to VDD or to a supply as low as 1.8 V to set the I/O interface
voltage.
Note 4 : If programming the configuration ROM via USB, add a 4.7 F capacitor between VPP
and ground. During a programming operation, do not connect the VPP pin to other
circuitry, and ensure that VDD is at least 3.3 V.
Figure 10. Typical Bus-Powered Connection Diagram
18
Rev. 1.2