9 power supply, Power supply, Table 30: power supply – BECKHOFF ET1200 User Manual

Pin Description

Slave Controller

– ET1200 Hardware Description

III-23

3.9

Power Supply

The ET1200 supports different power supply and I/O voltage options with 3.3V (or 5V I/O, not
recommended) and optionally single or dual power supply.

The V

CCI/O

supply voltage directly determines the I/O voltages for all inputs and outputs, i.e., with 3.3V

V

CCI/O

, the inputs are 3.3V I/O compliant and they are not 5V tolerant (V

CCI/O

has to be 5V if 5V tolerant

I/Os are required).

Two internal LDOs generate the I/O supply voltage V

CC I/O

(nom. 3.3V) and the core supply voltages

V

CC Core

/V

CC PLL

(nom. 2.5V) from the ET1200 power supply input V

CC

. V

CC

must be equal or greater

than V

CC I/O

, and V

CC PLL

is always equal to V

CC Core

. The internal LDOs cannot be switched off, they

stop operating if the external supply voltage is higher than the internal LDO output voltage, thus
external supply voltages have to be higher (at least 0.1V) than the internal LDO output voltages.

Using the internal LDOs increases power dissipation, and power consumption for 5V I/O voltage is
significantly higher than power consumption for 3.3V I/O. It is highly recommended to use 3.3V I/O
voltage and the internal LDO for V

CC Core

/V

CC PLL

.

For 3.3V I/O with external 3.3V power supply, both V

CC

and V

CCI/O

have to be connected to the

external 3.3V supply voltage, and for 5V I/O voltage, both V

CC

and V

CCI/O

have to be connected to the

external 5V supply voltage.

Voltage stabilization capacitors at all power pairs are necessary.

Table 29: Power supply options (all voltages nomal)

V

CC

V

CC I/O

V

CC Core

/V

CC PLL

Input signals

Output signals

Comment

3.3V

External 3.3V
(= V

CC

)

Internal LDO
(2.5V)

3.3V only

3.3V only

Single power
supply, low power
dissipation

3.3V

External 3.3V
(= V

CC

)

External 2.5V

3.3V only

3.3V only

Dual power supply,
lowest power
dissipation

5V

Internal LDO
(3.3V)

Internal LDO
(2.5V)

3.3V only

3.3V only

Single power
supply, highest
power dissipation

5V

Internal LDO
(3.3V)

External 2.5V

3.3V only

3.3V only

Dual power supply

Not recommended:

5V

External 5V
(= V

CC

)

Internal LDO
(2.5V)

5V only

5V only

Single power
supply, high power
dissipation

5V

External 5V
(= V

CC

)

External 2.5V

5V only

5V only

Dual power supply,
high power
dissipation

Table 30: Power supply

Pin

Pin name

EP

GND

14

V

CC

15

GND

6

V

CC I/O

7

GND

I/O

41

V

CC Core

(2.5V)

42

GND

Core

24

V

CC PLL

(2.5V)

23

GND

PLL