ZILOG Z86C0208PEC, Z86C0208PSC, Z86C0208SEC, Z86C0208SSC, Z86E0208PSC Datasheet

DS96DZ80301 (11/96)

P R E L I M I N A R Y

1-1

1

P

RELIMINARY

C

USTOMER

P

ROCUREMENT

S

PECIFICATION

Z86C02/E02/L02

1

L

OW

-C

OST

, 512-B

YTE

ROM

M

ICROCONTROLLERS

FEATURES

■

18-Pin DIP and SOIC Packages

■

0 °

C to 70 ° C Standard Temperature

–40 ° C to 105 ° C Extended Temperature

(Z86C02/E02 only)

■

3.0V to 5.5V Operating Range (Z86C02)

4.5V to 5.5V Operating Range (Z86E02)

2.0V to 3.9V Operating Range (Z86L02)

■

14 Input / Output Lines

■

Five Vectored, Prioritized Interrupts from Five Different
Sources

■

Two On-Board Comparators

■

Software Enabled Watch-Dog Timer (WDT)

■

Programmable Interrupt Polarity

■

Two Standby Modes: STOP and HALT

■

Low-Voltage Protection

■

ROM Mask/OTP Options:
– Low-Noise (Z86C02/E02 only)
– ROM Protect
– Auto Latch
– Permanent Watch-Dog Timer (WDT)
– RC Oscillator (Z86C02/L02 Only)
– 32 KHz Operation (Z86C02/L02 Only)

■

One Programmable 8-Bit Counter/Timer with a 6-Bit
Programmable Prescaler

■

Power-On Reset (POR) Timer

■

On-Chip Oscillator that Accepts RC, Crystal, Ceramic
Resonator, LC, or External Clock Drive (C02/L02 only)

■

On-Chip Oscillator that Accepts RC or External Clock
Drive (Z86E02 SL1903 only)

■

On-Chip Oscillator that Accepts Crystal, Ceramic
Resonator, LC, or External Clock Drive (Z86E02 only)

■

Clock-Free WDT Reset

■

Low-Power Consumption (50mw)

■

Fast Instruction Pointer (1.5 µ s @ 8 MHz)

■

Fourteen Digital Inputs at CMOS Levels;
Schmitt-Triggered

GENERAL DESCRIPTION

Zilog's Z86C02/E02/L02 microcontrollers (MCUs) are
members of the Z8

®

single-chip MCU family, which offer

easy software/hardware system expansion.
For applications demanding powerful I/O capabilities, the

MCU's dedicated input and output lines are grouped into

three ports, and are configurable under software control to
provide timing, status signals, or parallel I/O.

One on-chip counter/timer, with a large number of user-se­lectable modes, off-load the system of administering real­time tasks such as counting/timing and I/O data communi-

Device

ROM

(KB)

RAM*

(Bytes)

Speed

(MHz)

Auto

Latch

Permanent

WDT

Z86C02 512 61 8 Optional Optional
Z86E02 512 61 8 Optional Optional
Z86L02 512 61 8 Optional Optional

Note: *General-Purpose

Z86C02/E02/L02
Low-Cost, 512-Byte ROM Microcontrollers

1-2

P R E L I M I N A R Y

DS96DZ80301 (11/96)

GENERAL DESCRIPTION (Continued)

cations. Additionally, two on-board comparators process
analog signals with a common reference voltage (Figure

1).

Note: All Signals with a preceding front slash, "/", are ac-

tive Low, e.g.: B//W (WORD is active Low); /B/W (BYTE is
active Low, only).

Power connections follow conventional descriptions be­low:

Connection Circuit Device

Power V

CC

V

DD

Ground GND V

SS

Figure 1. Z86C02/E02/L02 Functional Block Diagram

Port 3

Counter/

Timer

Interrupt

Control

T wo Analog

Comparators

Port 2

I/O

(Bit Programmable)

FLAG

Register

Pointer

General-Purpose

Register File

Machine

Timing & Inst.

Control

Program

Memory

Program

Counter

Vcc GND

XTAL

Port 0

I/O

Input

ALU

Z86C02/E02/L02
Low-Cost, 512-Byte ROM Microcontrollers

1-3

P R E L I M I N A R Y

DS96DZ80301 (11/96)

GENERAL DESCRIPTION (Continued)

PIN DESCRIPTIONS

Figure 2. EPROM Programming Mode Block Diagram

Z8 MCU

Address
Counter

Address MUX

Data MUX

Z8 PORT2

Option Bits

EPROM

PGM

Mode Logic

D7-D0

D7-D0

D7-D0

A10-A0

A10-A0

A10-A0

3 Bits

Clear

P00

Clock

P01

EPM

P32

/CE

XT1

/PGM

P02

VPP

P33

/OE
P31

Figure 3. 18-Pin Standard Mode Configuration

1
2

9

3
4
5
6
7
8

18
17
16
15
14
13
12
11
10

P23
P22

P33

P21
P20
GND
P02
P01
P00

P24
P25

P32

P26
P27

Vcc
XTAL2
XTAL1

P31

Standard Mode

Table 1. 18-Pin Standard Mode Identification

Pin # Symbol Function Direction

1-4 P24-P27 Port 2, Pins 4, 5, 6, 7 In/Output

5V

CC

Power Supply

6 XTAL2 Crystal Oscillator

Clock

Output

7 XTAL1 Crystal Oscillator

Clock

Input

8 P31 Port 3, Pin 1, AN1 Input
9 P32 Port 3, Pin 2, AN2 Input

10 P33 Port 3, Pin 3, REF Input

11-13 P00-P02 Port 0, Pins 0, 1, 2 In/Output

14 GND Ground

15-18 P20-P23 Port 2, Pins 0, 1, 2, 3 In/Output

Z86C02/E02/L02

Low-Cost, 512-Byte ROM Microcontrollers

DS96DZ80301 (11/96)

P R E L I M I N A R Y

1-4

1

Figure 4. 18-Pin EPROM Mode Configuration

Table 2. 18-Pin EPROM Mode Identification

Pin # Symbol Function Direction

1-4 D4-D7 Data 4, 5, 6, 7 In/Output

5 Vcc Power Supply
6 NC No Connection
7 /CE Chip Enable Input
8 /OE Output Enable Input
9 EPM EPROM Program

Mode

Input

10 VPP Program Voltage Input
11 Clear Clear Clock Input
12 Clock Address Input
13 /PGM Program Mode Input
14 GND Ground

15-18 D0-D3 Data 0, 1, 2, 3 In/Output

1
2

9

3
4
5
6
7
8

18
17
16
15
14
13
12
11
10

D3
D2

VPP

D1
D0

GND
/PGM

CLOCK
CLEAR

D4
D5

EPM

D6
D7

Vcc

N/C

/CE

/OE

EPROM Mode

Figure 5. 18-Pin SOIC Configuration

Table 3. 18-Pin SOIC Pin Identification

Standard Mode

Pin # Symbol Function Direction

1-4 P24-P27 Port 2, Pins

4,5,6,7

In/Output

5 Vcc Power Supply
6 XTAL2 Crystal Osc. Clock Output
7 XTAL1 Crystal Osc. Clock Input
8 P31 Port 3, Pin 1, AN1 Input
9 P32 Port 3, Pin 2, AN2 Input

10 P33 Port 3, Pin 3, REF Input

11-13 P00-P02 Port 0, Pins 0,1,2 In/Output

14 GND Ground

15-18 P20-P23 Port 2, Pins

0,1,2,3

In/Output

118

P24

P27

VCC

XTAL2

XTAL1

P31

P32

P23

P22

P21

P20

GND

P02

P01

P00

P33

P25

P26

2

3

4

5

6

7

8

9

17

16

15

14

13

12

11

10

Z86C02/E02/L02

Low-Cost, 512-Byte ROM Microcontrollers

DS96DZ80301 (11/96)

P R E L I M I N A R Y

1-5

1

ABSOLUTE MAXIMUM RATINGS

Notes:

Stresses greater than those listed under Absolute
Maximum Ratings may cause permanent damage to the
device. This is a stress rating only; functional operation of
the device at any condition above those indicated in the
operational sections of these specifications is not implied.
Exposure to absolute maximum rating conditions for an
extended period may affect device reliability.

Total power dissipation should not exceed 462 mW for the
package. Power dissipation is calculated as follows:

1. This applies to all pins except where otherwise noted.

2. Maximum current into pin must be ± 600 µ A.
There is no input protection diode from pin to V

DD

.

3. This excludes Pin 6 and Pin 7.

4. Device pin is not at an output Low state.

Total Power dissipation = V

DD

x [I

DD

– (sum of I

OH

)] + sum of [(V

DD

– V

OH

) x I

OH

] + sum of (V

0L

x I

0L

)

STANDARD TEST CONDITIONS

The characteristics listed below apply for standard test
conditions as noted. All voltages are referenced to
Ground. Positive current flows into the referenced pin (Fig­ure 6).

CAPACITANCE

T

A

= 25 ° C, V

CC

= GND = 0V, f = 1.0 MHz, unmeasured pins returned to GND.

Parameter Min Max Units

Ambient Temperature under Bias –40 +105 C
Storage Temperature –65 +150 C
Voltage on any Pin with Respect to V

SS

[Note 1] –0.7 +12 V

Voltage on V

DD

Pin with Respect to V

SS

–0.3 +7 V

Voltage on Pin 7 with Respect to V

SS

[Note 2] (Z86C02/L02) –0.7 V

DD

+1 V

Voltage on Pin 7,8,9,10 with Respect to V

SS

[Note 2] (Z86E02) –0.7 V

DD

+1 V

Total Power Dissipation 462 mW
Maximum Allowed Current out of V

SS

300 mA

Maximum Allowed Current into V

DD

270 mA

Maximum Allowed Current into an Input Pin [Note 3] –600 +600

µ

A

Maximum Allowed Current into an Open-Drain Pin [Note 4] –600 +600

µ

A
Maximum Allowed Output Current Sinked by Any I/O Pin 20 mA
Maximum Allowed Output Current Sourced by Any I/O Pin 20 mA
Maximum Allowed Output Current Sinked by Port 2, Port 0 80 mA
Maximum Allowed Output Current Sourced by Port 2, Port 0 80 mA

Figure 6. Test Load Diagram

From Output

Under T est

150 pF

Parameter Min Max

Input capacitance 0 15 pF
Output capacitance 0 20 pF
I/O capacitance 0 25 pF

Z86C02/E02/L02
Low-Cost, 512-Byte ROM Microcontrollers

1-6 P R E L I M I N A R Y DS96DZ80301 (11/96)

DC ELECTRICAL CHARACTERISTICS

Z86C02

TA = 40°C to +105°C

T

A

= 0°C to +70°C

Typical

Sym. Parameter

V

CC

[4]

Min Max @ 25°C Units Conditions Notes

V

CH

Clock Input High
Voltage

3.0V 0.8 V

CC

VCC+0.3 1.7 V Driven by External

Clock Generator

5.5V 0.8 V

CC

VCC+0.3 2.8 V Driven by External

Clock Generator

V

CL

Clock Input Low
Voltage

3.0V VSS–0.3 0.2 V

CC

0.8 V Driven by External
Clock Generator

5.5V VSS–0.3 0.2 V

CC

1.7 V Driven by External
Clock Generator

V

IH

Input High Voltage 3.0V 0.7 V

CC

VCC+0.3 1.8 V [1]

5.5V 0.7 V

CC

VCC+0.3 2.8 V [1]

V

IL

Input Low Voltage 3.0V VSS–0.3 0.2 V

CC

0.8 V [1]

5.5V V

SS

–0.3 0.2 V

CC

1.5 V [1]

V

OH

Output High Voltage 3.0V VCC–0.4 3.0 V IOH = –2.0 mA [5]

5.5V V

CC

–0.4 4.8 V I

OH

= –2.0 mA [5]

3.0V V

CC

–0.4 3.0 V Low Noise @

IOH = –0.5 mA

5.5V V

CC

–0.4 4.8 V Low Noise @

I

OH

= –0.5 mA

V

OL1

Output Low Voltage 3.0V 0.8 0.2 V IOL = +4.0 mA [5]

5.5V 0.4 0.1 V I

OL

= +4.0 mA [5]

3.0V 0.8 0.2 V Low Noise @
I

OL

= 1.0 mA

5.5V 0.4 0.1 V Low Noise @
I

OL

= 1.0 mA

V

OL2

Output Low Voltage 3.0V 1.0 0.8 V IOL = +12 mA [5]

5.5V 0.8 0.3 V I

OL

= +12 mA [5]

V

OFFSET

Comparator Input
Offset V oltage

3.0V 25 10 mV

5.5V 25 10 mV

V

LV

VCC Low Voltage
Auto Reset

V

2.2 2.8 2.6 V [9]

2.0 3.0 2.6 V [10]

I

IL

Input Leakage
(Input Bias Current
of Comparator)

3.0V –1.0 1.0 µAVIN = 0V, V

CC

5.5V –1.0 1.0 µAVIN = 0V, V

CC

I

OL

Output Leakage 3.0V –1.0 1.0 µAVIN = 0V, V

CC

5.5V –1.0 1.0 µAVIN = 0V, V

CC

V

VICR

Comparator Input
Common Mode
Voltage Range

V

SS

–0.3 VCC –1.0 V [9]

V

SS

–0.3 VCC –1.5 V [10]

Z86C02/E02/L02

Low-Cost, 512-Byte ROM Microcontrollers

DS96DZ80301 (11/96) P R E L I M I N A R Y 1-7

1

DC CHARACTERISTICS

Z86C02

TA = 40°C to+105°C

T

A

= 0°C to +70°C

Typical

Sym. Parameter

V

CC

[4]

Min Max @ 25°C Units Conditions Notes

I

CC

Supply Current 3.0V 3.5 1.5 mA @ 2 MHz [5,6,7]

5.5V 7.0 3.8 mA @ 2 MHz [5,6,7]

3.0V 8.0 3.0 mA @ 8 MHz [5,6,7]

5.5V 11.0 4.4 mA @ 8 MHz [5,6,7]

I

CC1

Standby Current (Halt Mode) 3.0V 2.5 0.7 mA @ 2 MHz [5,6,7]

5.5V 4.0 2.5 mA @ 2 MHz [5,6,7]

3.0V 4.0 1.0 mA @ 8 MHz [5,6,7]

5.5V 5.0 3.0 mA @ 8 MHz [5,6,7]

ICCSupply Current (Low Noise Mode) 3.0V 3.5 1.5 mA @ 1 MHz [5,6,7]

5.5V 7.0 3.8 mA @ 1 MHz [5,6,7]

3.0V 5.8 2.5 mA @ 2 MHz [5,6,7]

5.5V 9.0 4.0 mA @ 2 MHz [5,6,7]

3.0V 8.0 3.0 mA @ 4 MHz [5,6,7]

5.5V 11.0 4.4 mA @ 4 MHz [5,6,7]

I

CC1

Standby Current
(Low Noise Halt Mode)

3.0V 2.5 0.7 mA @ 1 MHz [6,7,8]

5.5V 4.0 2.5 mA @ 1 MHz [6,7,8]

3.0V 3.0 0.9 mA @ 2 MHz [6,7,8]

5.5V 4.5 2.8 mA @ 2 MHz [6,7,8]

3.0V 4.0 1.0 mA @ 4 MHz [6,7,8]

5.5V 5.0 3.0 mA @ 4 MHz [6,7,8]

I

CC2

Standby Current (Stop Mode) 3.0V 10 1.0 µA [6,7,8,9]

3.0V 20 1.0 µA [6,7,8,10]

5.5V 10 1.0 µA [6,7,8,9]

5.5V 20 1.0 µA [6,7,8,10]

I

ALL

Auto Latch Low Current 3.0V 12 3.0 µA 0V < VIN < V

CC

5.5V 32 16 µA 0V < VIN < V

CC

I

ALH

Auto Latch High Current 3.0V –8 -1.5 µA 0V < VIN < V

CC

5.5V –16 -8.0 µA 0V < VIN < V

CC

Notes:

1. ort 0, 2, and 3 only.

2. V

SS

= 0V = GND.

3. The device operates down to V

LV

The minimum operational VCC is determined on the value of the voltage

V

LV

at the ambient temperature.

4. V

CC

= 3.0V to 5.5V, typical values measured at VCC = 3.3V and VCC = 5.0V.

5. Standard mode (not Low EMI mode).

6. Inputs at V

CC

or VSS, outputs unloaded.

7. Halt mode and Low EMI mode.

8. WDT not running.

9. TA= 0˚C to 70˚C.

10. T

A

= 40˚C to 105˚C.

Z86C02/E02/L02
Low-Cost, 512-Byte ROM Microcontrollers

1-8 P R E L I M I N A R Y DS96DZ80301 (11/96)

DC CHARACTERISTICS

Z86L02

TA = 0°C to +70°C

Typical

Sym. Parameter

V

CC

[4]

Min Max @ 25°C Units Conditions Notes

V

CH

Clock Input High
Voltage

2.0V 0.9 V

CC

VCC+0.3 V Driven by External

Clock Generator

3.9V 0.9 V

CC

VCC+0.3 V Driven by External

Clock Generator

V

CL

Clock Input Low
Voltage

2.0V VSS–0.3 0.1 V

CC

V Driven by External

Clock Generator

3.9V VSS–0.3 0.1 V

CC

V Driven by External

Clock Generator

V

IH

Input High Voltage 2.0V 0.9 V

CC

VCC+0.3 V [1]

3.9V 0.9 V

CC

VCC+0.3 V [1]

V

IL

Input Low Voltage 2.0V VSS–0.3 0.1 V

CC

V [1]

3.9V V

SS

–0.3 0.1 V

CC

V [1]

V

OH

Output High Voltage 2.0V VCC–0.4 3.0 V IOH = – 500 µA [5]

3.9V V

CC

–0.4 3.0 V IOH = –500 µA [5]

V

OL1

Output Low Voltage 2.0V 0.8 0.2 V IOL = +1.0 mA [5]

3.9V 0.4 0.1 V I

OL

= +1.0 mA [5]

V

OL2

Output Low Voltage 2.0V 1.0 0.8 V IOL = + 3.0 mA [5]

3.9V 0.8 0.3 V I

OL

= + 3.0 mA [5]

V

OFFSET

Comparator Input
Offset V oltage

2.0V 25 10 mV

3.9V 25 10 mV

V

LV

VCC Low Voltage
Auto Reset

1.4 2.15 V

I

IL

Input Leakage
(Input Bias Current
of Comparator)

2.0V –1.0 1.0 µAVIN = 0V, V

CC

3.9V –1.0 1.0 µAVIN = 0V, V

CC

I

OL

Output Leakage 2.0V –1.0 1.0 µA

V

IN

= 0V, V

CC

3.9V –1.0 1.0 µAVIN = 0V, V

CC

V

VICR

Comparator Input
Common Mode
Voltage Range

V

SS

–0.3 V

CC

–1.0 V

Z86C02/E02/L02

Low-Cost, 512-Byte ROM Microcontrollers

DS96DZ80301 (11/96) P R E L I M I N A R Y 1-9

1

TA = 0°C to +70°C

Typical

Sym Parameter

V

CC

[4]

Min Max @ 25°C Units Conditions Notes

I

CC

Supply Current 2.0V 3.3 mA @ 2 MHz [5,6]

3.9V 6.8 mA @ 2 MHz [5,6]

2.0V 6.0 mA @ 8 MHz [5,6]

3.9V 9.0 mA @ 8 MHz [5,6]

I

CC1

Standby Current (Halt Mode) 2.0V 2.3 mA @ 2 MHz [5,6,7]

3.9V 3.8 mA @ 2 MHz [5,6,7]

2.0V 3.8 mA @ 8 MHz [5,6,7]

3.9V 4.8 mA @ 8 MHz [5,6,7]

I

CC2

Standby Current (Stop Mode) 2.0V 10 1.0 µA [6,7]

3.9V 10 1.0 µA [6,7]

I

ALL

Auto Latch Low Current 2.0V 12 3.0 µA 0V < VIN < V

CC

3.9V 32 16 µA 0V < VIN < V

CC

I

ALH

Auto Latch High Current 2.0V –8 -1.5 µA 0V < VIN < V

CC

3.9V –16 -8.0 µA

Notes:

1. Port 0, 2, and 3 only

2. V

SS

= 0V = GND.The device operates down to VLV. The minimum operational VCC is determined by the value of the voltage V

LV

at the ambient temperature.

3. V

CC

= 2.0V to 3.9V, typical values measured at VCC = 3.3 V.

4. Standard Mode (not Low EMI mode).

5. Inputs at V

CC

or VSS, outputs are unloaded.

6. WDT is not running.

Z86C02/E02/L02
Low-Cost, 512-Byte ROM Microcontrollers

1-10 P R E L I M I N A R Y DS96DZ80301 (11/96)

DC CHARACTERISTICS

Z86E02

TA = –40°C to +105°C

T

A

= 0°C to +70°C

Typical

Sym. Parameter

V

CC

[4]

Min Max @ 25°C Units Conditions Notes

V

CH

Clock Input High
Voltage

4.5V 0.8 V

CC

VCC+0.3 2.8 V Driven by External

Clock Generator

5.5V 0.8 V

CC

VCC+0.3 2.8 V Driven by External

Clock Generator

V

CL

Clock Input Low
Voltage

4.5V VSS–0.3 0.2 V

CC

1.7 V Driven by External
Clock Generator

5.5V V

SS–

0.3 0.2 V

CC

1.7 V Driven by External
Clock Generator

V

IH

Input High Voltage 4.5V 0.7 V

CC

VCC+0.3 2.8 V

5.5V 0.7 V

CC

VCC+0.3 2.8 V

V

IL

Input Low Voltage 4.5V VSS–0.3 0.2 V

CC

1.5 V

5.5V V

SS

–0.3 0.2 V

CC

1.5 V

V

OH

Output High Voltage 4.5V VCC–0.4 4.8 V I

OH

= –2.0 mA [5]

5.5V V

CC

–0.4 4.8 V I

OH

= –2.0 mA [5]

4.5V V

CC

–0.4 4.8 V Low Noise @

I

OH

= –0.5 mA

5.5V V

CC

–0.4 4.8 V

V

OL1

Output Low Voltage 4.5V 0.4 0.1 V IOL = +4.0 mA [5]

5.5V 0.4 0.1 V I

OL

= +4.0 mA [5]

4.5V 0.4 0.1 V Low Noise @
I

OL

= 1.0 mA

5.5V 0.4 0.1 V Low Noise @
I

OL

= 1.0 mA

V

OL2

Output Low Voltage 4.5V 1.0 0.8 V IOL = +12 mA [5]

5.5V 1.0 0.8 V I

OL

= +12 mA [5]

V

OFFSET

Comparator Input
Offset V oltage

4.5V 25 10 mV

5.5V 25 10 mV

V

LV

VCC Low Voltage
Auto Reset

2.6 3.3 3.0 V [9]

2.2 3.6 3.0 V [10]

I

IL

Input Leakage (Input
Bias Current of
Comparator)

4.5V –1.0 1.0 µAVIN = 0V, V

CC

5.5V –1.0 1.0 µAVIN = 0V, V

CC

I

OL

Output Leakage 4.5V –1.0 1.0 µAVIN = 0V, V

CC

5.5V –1.0 1.0 µAVIN = 0V, V

CC

V

VICR

Comparator Input
Common Mode
Voltage Range

V

SS

–0.3 VCC –1.0 V [9]

V

SS

–0.3 VCC –1.5 V [10]

Z86C02/E02/L02

Low-Cost, 512-Byte ROM Microcontrollers

DS96DZ80301 (11/96) P R E L I M I N A R Y 1-11

1

TA = –40°C to +105°C

T

A

= 0°C to +70°C

Typical

Sym. Parameter

V

CC

[4]

Min Max @ 25°C Units Conditions Notes

I

CC

Supply Current 4.5V 9.0 3.8 mA @ 2 MHz [5,6]

5.5V 9.0 3.8 mA @ 2 MHz [5,6]

4.5V 15.0 4.4 mA @ 8 MHz [5,6]

5.5V 15.0 4.4 mA @ 1 MHz [5,6]

I

CC1

Standby Current (HALT mode) 4.5V 4.0 2.5 mA @ 2 MHz [5,6]

5.5V 4.0 2.5 mA @ 2 MHz [5,6]

4.5V 5.0 3.0 mA @ 4 MHz [5,6]

5.5V 5.0 3.0 mA @ 4 MHz [5,6]

I

CC

Supply Current (Low Noise
Mode)

4.5V 9.0 3.8 mA [6]

5.5V 9.0 3.8 mA [6]

4.5V 11.0 4.0 mA @ 2 MHz [6]

5.5V 11.0 4.0 mA @ 2 MHz [6]

4.5V 15.0 4.4 mA @ 4 MHz [6]

5.5V 15.0 4.4 mA @ 4 MHz [6]

I

CC1

Standby Current (Low Noise
Halt Mode)

4.5V 4.0 2.5 mA @ 1 MHz [6,7,8]

5.5V 4.0 2.5 mA @ 1 MHz [6,7,8]

4.5V 4.5 2.7 mA @ 2 MHz [6,7,8]

5.5V 4.5 2.7 mA @ 2 MHz [6,7,8]

4.5V 5.0 3.0 mA @ 4 MHz [6,7,8]

5.5V 5.0 3.0 mA @ 4 MHz [6,7,8]

I

CC2

Standby Current (Stop Mode) 4.5V 10 1.0 µA [6,7,9]

4.5V 20 1.0 µA [6,7,10]

5.5V 10 1.0 µA [6,7,9]

5.5V 20 1.0 µA 6,7,10]

I

ALL

Auto Latch Low Current 4.5V 32 16 µA 0V <VIN<V

CC

5.5V 32 16 µA 0V <VIN<V

CC

ALH

Auto Latch High 4.5V –16 -8.0 µA 0V <VIN<V

CC

5.5V –16 –8.0 µA 0V <VIN<V

CC

Notes:

1. Port 0, 2, and 3 only.

2. V

SS

= 0V = GND.

3. The device operates down to V

LV

of the specified frequency for VLV. The minimum operational VCC is determined by the value of

the voltage V

LV

at the ambient temperature.

4. The V

LV

increases as the temperature decreases.

5. V

CC

= 4.5V to 5.5V, typical values measured at VCC = 5.0V.

6. Standard mode (not Low EMI mode).

7. Inputs at V

CC

or VSS, outputs unloaded.

8. WDT not running.

9. Halt mode and Low EMI mode.

10. TA= 0˚C to 70˚C.TA= –40˚C to 105˚C.