Cirrus Logic EP7309 User Manual

DS507F2



Copyright Cirrus Logic, Inc. 2011

(All Rights Reserved)

13

EP7309

High-Performance, Low-Power System on Chip

Note:

1) Total power consumption = IDD

CORE

x

2.5 V + IDD

IO

x

3.3 V

2) A typical design will provide 3.3 V to the I/O supply (i.e., V

DDIO

), and 2.5 V to the remaining logic. This is to allow the I/O to be

compatible with 3.3 V powered external logic (i.e., 3.3 V SDRAMs).

2) Pull-up current = 50 µA typical at V

DD

= 3.3 V.

CI/O

Transceiver capacitance

8

-

10.0

pF

IDD

STANDBY

@ 25 C

Standby current consumption

1

Core, Osc, RTC @2.5 V
I/O @ 3.3 V

-
-

77
41

-
-

µA

Only nPOR, nPWRFAIL,
nURESET, PE0, PE1, and RTS
are driven, while all other float,
VIH = V

DD

± 0.1 V,

VIL = GND ± 0.1 V

IDD

STANDBY

@ 70 C

Standby current consumption

1

Core, Osc, RTC @2.5 V
I/O @ 3.3 V

-
-

-
-

570

111

µA

Only nPOR, nPWRFAIL,
nURESET, PE0, PE1, and RTS
are driven, while all other float,
VIH = V

DD

± 0.1 V,

VIL = GND ± 0.1 V

IDD

STANDBY

@ 85 C

Standby current consumption

1

Core, Osc, RTC @2.5 V
I/O @ 3.3 V

-
-

-
-

1693

163

µA

Only nPOR, nPWRFAIL,
nURESET, PE0, PE1, and RTS
are driven, while all other float,
VIH = V

DD

± 0.1 V,

VIL = GND ± 0.1 V

IDD

idle

at 74 MHz

Idle current consumption

1

Core, Osc, RTC @2.5 V
I/O @ 3.3 V

-
-

6

10

-
-

mA

Both oscillators running, CPU
static, Cache enabled, LCD
disabled, VIH = V

DD

± 0.1 V, VIL

= GND ± 0.1 V

VDD

STANDBY

Standby supply voltage

2.0

-

-

V

Minimum standby voltage for
state retention, internal SRAM
cache, and RTC operation only

a.

Refer to the strength column in the pin assignment tables for all package types.

b.

Assumes buffer has no pull-up or pull-down resistors.

c.

The leakage value given assumes that the pin is configured as an input pin but is not currently being driven.

Symbol

Parameter

Min

Typ

Max

Unit

Conditions