Datasheet Z86C3016SEC, Z86C3016SSC, Z86C3016VEC, Z86C3016VSC, Z86C3112PEC Datasheet (ZILOG)

CP96DZ82900 1

Z86C30/C31/C32/C40

CP96DZ82900

ZILOG

FEATURES

ROM RAM* Speed

Part (KB) (Byte) (MHz)

Z86C30 4 237 16
Z86C31 2 125 12
Z86C32 2 237 12
Z86C40 4 236 16

* General-Purpose

■ 28-Pin DIP, 28-Pin SOIC, 28-Pin PLCC Packages

(Z86C3X)
40-Pin DIP, 44-Pin PLCC/QFP Packages (Z86C40)

■ 3.0V to 5.5V Operating Range

■ Low-Power Consumption

■ –40°C to +105°C Operating Range

■ Expanded Register File (ERF)

■ 32 Input/Output Lines (C40)

24 Input/Output Lines (C3X)

■ Vectored, Prioritized Interrupts with

Programmable Polarity

■ Two Analog Comparators

■ Two Programmable 8-Bit Counter/Timers,

Each with Two 6-Bit Programmable Prescaler

■ Watch-Dog Timer/Power-On Reset

■ On-Chip Oscillator that Accepts a Crystal, Ceramic

Resonator, LC, RC, or External Clock

■ RAM and ROM Protect

Z86C30/C31/C32/C40

CMOS Z8® CONSUMER
CONTROLLER PROCESSOR

The Z86C3X/C40 Consumer Controller Processors
(CCP) are members of the Z8® single-chip microcontroller
family offering a unique register-to-register architecture
that avoids accumulator bottlenecks and offers fast execu­tion of code.

Three address spaces (Program Memory, Register File,
and Expanded Register File [ERF]), support a wide range
of memory configurations. Through the ERF, the designer
has access to three additional control registers that pro­vide extra peripheral devices, I/O ports, and
register addresses. The rest of the ERF is not physically
implemented and is open for future expansion.

For applications demanding powerful I/O capabilities, the
Z86C3X/C40's dedicated input and output lines are
grouped into three and four ports, respectively, and are
configurable under software control to provide timing,
status signals, or parallel I/O.

Two on-chip counter/timers, with a large number of select­able modes, offload the system of administering real-time
tasks such as counting/timing and I/O data communica­tions.

With ROM/ROMless selectivity, the Z86C40 provides both
external memory and pre-programmed ROM, which
enables these Z8 microcontrollers to be used in high­volume applications, or where code flexibility is required.

Notes:

All Signals with a preceding front slash, "/", are active 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

GENERAL DESCRIPTION

PRELIMINARY
CUSTOMER PROCUREMENT SPECIFICATION

2 CP96DZ82900

Z86C30/C31/C32/C40

CP96DZ82900ZILOG

GENERAL DESCRIPTION (Continued)

Port 3

Counter/

Timers (2)

Interrupt

Control

T wo Analog

Comparators

Port 2

I/O

(Bit Programmable)

ALU

FLAGS

Register

Pointer

Register File

Machine T iming

&

Instruction Control

Prg. Memory

4K

Program

Counter

Vcc GND

XTAL

44

Port 0

Output Input

Address or I/O

(Nibble Programmable)

8

Port 1

Address/Data or I/O

(Byte Programmable)

/AS /DS R//W /RESET

RESET

WDT, POR

(Only on Z86C40)

(Only on Z86C40)

Functional Block Diagram

CP96DZ82900 3

Z86C30/C31/C32/C40

CP96DZ82900

ZILOG

25

19

5

11

18

12

264

Z86C30
Z86C31
Z86C32

1

XXX
XXX
XXX
XXX
XXX
XXX
XXX

XXX
XXX
XXX
XXX
XXX
XXX
XXX

P21
P20
P03
VSS
P02
P01
P00

P05
P06
P07
VDD
XT2
XT1
P31

P32

P33

P34

P35

P37

P36

P30

P04

P26

P25

P24

P23

P22

P27

PIN DESCRIPTION

28-Pin DIP/SOIC/PLCC Pin Identification

Pin # Symbol Function Direction

1-3 P27-25 Port 2, Pins 5,6,7 In/Output
4-7 P07-04 Port 0, Pins 4,5,6,7 In/Output
8VCCPower Supply
9 XTAL2 Crystal Oscillator Output

10 XTAL1 Crystal Oscillator Input
11-13 P33-31 Port 3, Pins 1,2,3 Fixed Input
14-15 P35-4 Port 3, Pins 4,5 Fixed Output
16 P37 Port 3, Pin 7 Fixed Output
17 P36 Port 3, Pin 6 Fixed Output

18 P30 Port 3, Pin 0 Fixed Input
19-21 P02-00 Port 0, Pins 0,1,2 In/Output
22 GND Ground, V

SS

23 P03 Port 0, Pin 3 In/Output
24-28 P24-20 Port 2, Pins 0,1,2,3,4 In/Output

P25

P26

P27

P04
P05

P06
P07

VDD

XTAL2

Z86C30
Z86C31
Z86C32

P24
P23
P22
P21
P20
P03
VSS
P02
P01

1
2

3
4
5
6
7
8

9

18

17

16
1514

13

12

11

10

19

20

XTAL1

P00

21

22

23

24

25

26

27

28

P31
P32
P33

P34

P30
P36

P37
P35

28-Pin SOIC Configuration

28-Pin DIP Configuration

28-Pin PLCC Configuration

1
2

9

3
4
5
6
7
8

28
27
26
25
24
23
22
21
20

P24
P23

P01

P22
P21
P20

P03
GND
P02

P25
P26

XTAL2

P27
P04
P05
P06
P07

VCC

Z86C30
Z86C31
Z86C32

19
18
17
16
15

14

10
11
12
13

XTAL1

P31
P32
P33
P34

P00
P30
P36
P37
P35

4 CP96DZ82900

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CP96DZ82900ZILOG

PIN DESCRIPTION (Continued)

1
2

9

3
4
5
6
7
8

40
39
38
37
36
35
34
33
32

/DS
P24

P12

P23
P22
P21
P20
P03
P13

R//W

XTAL2

P27
P04
P05
P06
P14

31
30
29
28
27

14

10
11
12
13

XTAL1

VCC

P16
P17

P25

GND
P02
P11
P10
P01

Z86C40

15 26

25
24
23
22
21

20

16
17
18
19

P15
P07

P26

P31

P34

/AS

P33

P32

P36

P00
P30

P37
P35
/RESET

40-Pin DIP Assignments

Pin # Symbol Function Direction

1 R//W Read/Write Output
2-4 P25-27 Port 2, Pins 5,6,7 In/Output
5-7 P04-06 Port 0, Pins 4,5,6 In/Output
8-9 P14-15 Port 1, Pins 4,5 In/Output

10 P07 Port 0, Pin 7 In/Output
11 V

CC

Power Supply
12-13 P16-17 Port 1, Pins 6,7 In/Output
14 XTAL2 Crystal, Oscillator Clock Output

15 XTAL1 Crystal, Oscillator Clock Input
16-18 P31-33 Port 3, Pins 1,2,3 Input
19 P34 Port 3, Pin 4 Output
20 /AS Address Strobe Output
21 /RESET Reset Input

40-Pin Dual-In-Line Package Pin Identification

Pin # Symbol Function Direction

22 P35 Port 3, Pin 5 Output
23 P37 Port 3, Pin 7 Output
24 P36 Port 3, Pin 6 Output
25 P30 Port 3, Pin 0 Input

26-27 P00-01 Port 0, Pin 0,1 In/Output
28-29 P10-11 Port 1, Pin 0,1 In/Output
30 P02 Port 0, Pin 2 In/Output
31 GND Ground, GND

32-33 P12-13 Port 1, Pin 2,3 In/Output
34 P03 Port 0, Pin 3 In/Output
35-39 P20-24 Port 2, Pin 0,1,2,3,4 In/Output
40 /DS Data Strobe Output

CP96DZ82900 5

Z86C30/C31/C32/C40

CP96DZ82900

ZILOG

PIN DESCRIPTION (Continued)

P20

P03

P13

P12

GND

GND

P02

P11

P10

P01

P00

P05

P06

P14

P15

P07

VCC

VCC

P16

P17

P30
P36
P37
P35
/RESET
R//RL
/AS
P34
P33
P32
P31

P21
P22
P23
P24

/DS
N/C

R//W

P25
P26
P27
P04

7
8

9
10
11
12
13
14
15
16
17

38
37
36
35
34
33
32
31
30
29

39

Z86C40

6543214443424140

18 19 20 21 22 23 24 25 26 27 28

XTAL1

XTAL2

44-Pin PLCC Pin Assignments

Pin # Symbol Function Direction

28 XTAL1 Crystal, Oscillator Clock Input
29-31 P31-33 Port 3, Pins 1,2,3 Input
32 P34 Port 3, Pin 4 Output
33 /AS Address Strobe Output
34 R//RL ROM/ROMless Control Input

35 /RESET Reset Input
36 P35 Port 3, Pin 5 Output
37 P37 Port 3, Pin 7 Output
38 P36 Port 3, Pin 6 Output
39 P30 Port 3, Pin 0 Input

40-41 P00-01 Port 0, Pins 0,1 In/Output
42-43 P10-11 Port 1, Pins 0,1 In/Output
44 P02 Port 0, Pin 2 In/Output

Pin # Symbol Function Direction

1-2 GND Ground, GND
3-4 P12-13 Port 1, Pins 2,3 In/Output
5 P03 Port 0, Pin 3 In/Output
6-10 P20-24 Port 2, Pins 0,1,2,3,4 In/Output
11 /DS Data Strobe Output

12 N/C Not Connected
13 R//W Read/Write Output
14-16 P25-27 Port 2, Pins 5,6,7 In/Output
17-19 P04-06 Port 0, Pins 4,5,6 In/Output
20-21 P14-15 Port 1, Pins 4,5 In/Output

22 P07 Port 0, Pin 7 In/Output
23-24 V

CC

Power Supply
25-26 P16-17 Port 1, Pins 6,7 In/Output
27 XTAL2 Crystal, Oscillator Clock Output

44-Pin PLCC Pin Identification

6 CP96DZ82900

Z86C30/C31/C32/C40

CP96DZ82900ZILOG

PIN DESCRIPTION (Continued)

Pin # Symbol Function Direction

1-2 P05-06 Port 0, Pins 5,6 In/Output
3-4 P14-15 Port 1, Pins 4,5 In/Output
5 P07 Port 0, Pin 7 In/Output
6-7 V

CC

Power Supply
8-9 P16-17 Port 1 Pins 6,7 In/Output

10 XTAL2 Crystal, Oscillator Clock Output
11 XTAL1 Crystal, Oscillator Clock Input
12-14 P31-33 Port 3, Pins 1,2,3 Input
15 P34 Port 3, Pin 4 Output
16 /AS Address Strobe Output

17 R//RL ROM/ROMless Control Input
18 /RESET Reset Input
19 P35 Port 3, Pin 5 Output
20 P37 Port 3, Pin 7 Output

Pin # Symbol Function Direction

21 P36 Port 3, Pin 6 Output
22 P30 Port 3, Pin 0 Input
23-24 P00-01 Port 0, Pins 0,1 In/Output
25-26 P10-11 Port 1, Pins 0,1 In/Output
27 P02 Port 0, Pin 2 In/Output

28-29 GND Ground, GND
30-31 P12-13 Port 1, Pins 2,3 In/Output
32 P03 Port 0, Pin 3 In/Output
33-37 P20-24 Port 2, Pins 0,1,2,3,4 In/Output
38 /DS Data Strobe Output

39 N/C Not Connected
40 R//W Read/Write Output
41-43 P25-27 Port 2, Pins 5,6,7 In/Output
44 P04 Port 0, Pin 4 In/Output

44-Pin QFP Pin Assignments

44-Pin QFP Pin Identification

34
35
36
37
38
39
40
41
42
43
44

21
20
19
18
17
16
15
14
13
12

22

33 32 31 30 29 28 27 26 25 24 23

1234567891011

Z86C40

P20

P03

P13

P12

GND

GND

P02

P11

P10

P01

P00

P21
P22
P23
P24

/DS
N/C

R//W

P25
P26
P27
P04

P30
P36
P37
P35
/RESET
R//RL
/AS
P34
P33
P32
P31

P05

P06

P14

P15

P07

VCC

VCC

P16

P17

XTAL1

XTAL2

CP96DZ82900 7

Z86C30/C31/C32/C40

CP96DZ82900

ZILOG

ABSOLUTE MAXIMUM RATINGS

Parameter Min Max Units

Ambient Temperature under Bias –40 +105 C
Storage Temperature –65 +150 C
Voltage on any Pin with Respect to VSS [Note 1] –0.6 +7 V
Voltage on VDD Pin with Respect to V

SS

–0.3 +7 V
Voltage on XTAL1 and /RESET Pins with Respect to VSS [Note 2] –0.6 VDD+1 V
Total Power Dissipation 1.21 W
Maximum Allowable Current out of V

SS

220 mA

Maximum Allowable Current into V

DD

180 mA

Maximum Allowable Current into an Input Pin [Note 3] –600 +600 µA
Maximum Allowable Current into an Open-Drain Pin [Note 4] –600 +600 µA
Maximum Allowable Output Current Sinked by Any I/O Pin 25 mA
Maximum Allowable Output Current Sourced by Any I/O Pin 25 mA

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 (Test Load).

CAPACITANCE

TA = 25°C, VCC = GND = 0V, f = 1.0 MHz; unmeasured pins returned to GND.

Parameter Min Max

Input capacitance 0 12 pF
Output capacitance 0 12 pF
I/O capacitance 0 12 pF

Notes:

[1] This applies to all pins except XTAL pins and where otherwise noted.
[2] There is no input protection diode from pin to VDD.
[3] This excludes XTAL pins.
[4] Device pin is not at an output Low state.

Total power dissipation should not exceed 1.21 W for the
package. Power dissipation is calculated as follows:

Total Power Dissipation = VDD x [ IDD – (sum of IOH) ]

+ sum of [ (VDD – VOH) x I

OH

]

+ sum of (V0L x I0L)

Notice:

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.

From Output

Under Test

150 pF

Test Load Diagram

8 CP96DZ82900

Z86C30/C31/C32/C40

CP96DZ82900ZILOG

DC ELECTRICAL CHARACTERISTICS

TA = 0°C Typical [1]

V

CC

to +70°C@

Sym Parameter Note [3] Min Ma x 25°C Units Conditions Notes

V

CH

Clock Input High Voltage 3.0V 0.7 V

CCVCC

+0.3 1.3 V Driven by External Clock Generator

5.5V 0.7 V

CCVCC

+0.3 2.5 V Driven by External Clock Generator

V

CL

Clock Input Low Voltage 3.0V GND-0.3 0.2 V

CC

0.7 V Driven by External Clock Generator

5.5V GND-0.3 0.2 V

CC

1.5 V Driven by External Clock Generator

V

IH

Input High Voltage 3.0V 0.7 V

CCVCC

+0.3 1.3 V

5.5V 0.7 V

CCVCC

+0.3 2.5 V

V

IL

Input Low Voltage 3.0V GND-0.3 0.2 V

CC

0.7 V

5.5V GND-0.3 0.2 V

CC

1.5 V

V

OH

Output High Voltge 3.0V VCC–0.4 3.1 V IOH = – 0.5 mA
Low EMI Mode 5.5V VCC–0.4 4.8 V IOH = – 0.5 mA

V

OH1

Output High Voltage 3.0V VCC–0.4 3.1 V IOH = – 2.0 mA [8]

5.5V VCC–0.4 4.8 V IOH = – 2.0 mA [8]

V

OL

Output Low Voltage 3.0V 0.6 0.3 V IOL = 1.0 mA
Low EMI Mode 5.5V 0.4 0.2 V IOL = 1.0 mA

V

OL1

Output Low Voltage 3.0V 0.6 0.2 V IOL = + 4.0 mA [8]

5.0V 0.4 0.1 V IOL = + 4.0 mA [8]

V

OL2

Output Low Voltage 3.0V 1.2 0.5 V IOL = + 6 mA [8]

5.5V 1.2 0.5 V IOL = + 12 mA [8]

V

RH

Reset Input High Voltage 3.0V .8 V

CC

V

CC

1.5 V [7]

5.5V .8 V

CC

V

CC

2.1 V [7]

V

RL

Reset Input Low Voltage 3.0V GND–0.3 0.2 V

CC

1.1 [7]

5.5V GND–0.3 0.2 V

CC

1.7 [7]

V

OLR

Reset Outut Low Voltage 3.0V 0.6 0.3 V IOL = +1.0 mA [7]

5.5V 0.6 0.2 V IOL = +1.0 mA [7]

V

OFFSET

Comparator Input Offset 3.0V 25 10 mV
Voltage 5.5V 25 10 mV

V

ICR

Input Common Mode 3.0V GND-0.3 VCC –1.0V V [10]
Voltage Range 5.5V GND-0.3 VCC –1.0V V [10]

I

IL

Input Leakage 3.0V –1 2 0.064 µAV

IN

= OV, V

CC

5.5V –1 2 0.064 µAV

IN

= OV, V

CC

I

OL

Output Leakage 3.0V –1 2 0.114 µAV

IN

= OV, V

CC

5.5V –1 2 0.114 µAV

IN

= OV, V

CC

I

IR

Reset Input Current 3.0V –20 –130 –62 µA

5.5V –20 –180 –112 µA

I

CC

Supply Current 3.0V 20 7 mA @ 16 MHz [4,5]

5.5V 25 20 mA @ 16 MHz [4,5]

3.0V 15 5 mA @ 12 MHz [4,5]

5.5V 20 15 mA @ 12 MHz [4,5]

CP96DZ82900 9

Z86C30/C31/C32/C40

CP96DZ82900

ZILOG

DC ELECTRICAL CHARACTERISTICS (Continued)

TA = 0°C Typical [1]

V

CC

to +70°C @

Sym Parameter Note [3] Mi n Max 25°C Units Conditions Notes

I

CC1

Standby Current 3.0V 4.5 2.0 mA VIN = 0V, VCC @ 16 MHz [4,5]
(Halt Mode) 5.5V 8 3.7 mA VIN = 0V, VCC @ 16 MHz [4,5]

3.0V 4 1.5 mA VIN = 0V, VCC @ 12 MHz [4,5]

5.5V 6 3.2 mA VIN = 0V, VCC @ 12 MHz [4,5]

3.0V 3.4 1.5 mA Clock Divide by 16 @ 16 MHz [4,5]

5.5V 7.0 2.9 mA Clock Divide by 16 @ 16 MHz [4,5]

3.0V 3 1.2 mA Clock Divide by 16 @ 12 MHz [4,5]

5.5V 5 2.5 mA Clock Divide by 16 @ 12 MHz [4,5]

I

CC2

Standby Current 3.0V 8 2 µAV

IN

= OV, V

CC

[6,11]

(Stop Mode) WDT is not Running

5.5V 10 4 µAV

IN

= OV, V

CC

[6,11]

WDT is not Running

3.0V 500 310 µAV

IN

= OV, V

CC

[6,11]

WDT is Running

5.5V 800 600 µAV

IN

= OV, V

CC

[6,11]

WDT is Running

I

ALL

Auto Latch 3.0V 0.7 8 2.4 µA OV < VIN < V

CC

[9]

Low Current

5.5V 1.4 15 4.7 µA OV < VIN < V

CC

[9]

I

ALH

Auto Latch 3.0V –0.6 –5 –1.8 µA OV < VIN < V

CC

[9]

High Current

5.5V –1 –8 –3.8 µA OV < VIN < V

CC

[9]

T

POR

Power On Reset 3.0V 3 24 10 mS

5.5V 2.0 13 4 mS

V

LV

Low Voltage Protection 2.05 2.95 2.6 V 6 MHz max INT CLK Freq. [7]

Note:

[1] Typicals are at VCC = 5.0V and 3.3V.
[2] GND = 0V.
[3] The VCC voltage spec. of 3.0V guarantees 3.3V ± 0.3V and the VDD voltage spec. of 5.5V guarantees 5.0V ± 0.5V.
[4] All outputs unloaded, I/O pins floating, inputs at rail.
[5] CL1= CL2 = 10 pF.
[6] Same as note [4] except inputs at VCC.
[7] Z86C40 only.
[8] STD Mode (not Low-EMI Mode).
[9] Auto Latch (mask option) selected.
[10] For analog comparator inputs when analog comparators are enabled.
[11] Clock must be forced Low, when XTAL1 is clock driven and XTAL2 is floating.

10 CP96DZ82900

Z86C30/C31/C32/C40

CP96DZ82900ZILOG

DC ELECTRICAL CHARACTERISTICS

TA=–40°C Typical [1]

V

CC

to 105°C@

Sym Parameter Note [3] Mi n M ax 25°C Units Conditions Notes

V

CH

Clock Input High Voltage 3.0V 0.7 V

CC

VCC+0.3 1.3 V Driven by External Clock Generator

5.5V 0.7 V

CC

VCC+0.3 2.5 V Driven by External Clock Generator

V

CL

Clock Input Low Voltage 3.0V GND-0.3 0.2 V

CC

0.7 V Driven by External Clock Generator

5.5V GND-0.3 0.2 V

CC

1.5 V Driven by External Clock Generator

V

IH

Input High Voltage 3.0V 0.7 V

CC

VCC+0.3 1.3 V

5.5V 0.7 V

CC

VCC+0.3 2.5 V

V

IL

Input Low Voltage 3.0V GND-0.3 0.2 V

CC

0.7 V

5.5V GND-0.3 0.2 V

CC

1.5 V

V

OH

Output High Voltage 3.0V VCC–0.4 3.1 V IOH = – 0.5 mA
Low EMI Mode 5.5V VCC–0.4 4.8 V IOH = – 0.5 mA

V

OH1

Output High Voltage 3.0V VCC–0.4 3.1 V IOH = – 2.0 mA [8]

5.5V VCC–0.4 4.8 V IOH = – 2.0 mA [8]

V

OL

Output Low Voltage 3.0V 0.6 0.3 V IOL = 1.0 mA
Low EMI Mode 5.5V 0.4 0.2 V IOL = 1.0 mA

V

OL1

Output Low Voltage 3.0V 0.6 0.2 V IOL = + 4.0 mA [8]

5.0V 0.4 0.1 V IOL = + 4.0 mA [8]

V

OL2

Output Low Voltage 3.0V 1.2 0.5 V IOL = + 6 mA [8]

5.5V 1.2 0.5 V IOL = + 12 mA [8]

V

RH

Reset Input High Voltage 3.0V .8 V

CC

V

CC

1.5 V [7]

5.5V .8 V

CC

V

CC

2.1 V [7]

V

RL

Reset Input Low Voltage 3.0V GND–0.3 0.2 V

CC

1.1 [7]

5.5V GND–0.3 0.2 V

CC

1.7 [7]

V

OLR

Reset Output Low Voltage 3.0V 0.6 0.4 V IOL = + 1.0 mA [7]

5.5V 0.6 0.3 V IOL = + 1.0 mA [7]

V

OFFSET

Comparator Input Offset 3.0V 25 10 mV
Voltage 5.5V 25 10 mV

V

ICR

Input Common Mode 3.0V GND–0.3 VCC –1.5V V [10]
Voltage Range 5.5V GND–0.3 VCC –1.5V V [10]

I

IL

Input Leakage 3.0V –1 2 <1 µAV

IN

= OV, V

CC

5.5V –1 2 <1 µAV

IN

= OV, V

CC

I

OL

Output Leakage 3.0V –1 2 <1 µAV

IN

= OV, V

CC

5.5V –1 2 <1 µAV

IN

= OV, V

CC

I

IR

Reset Input Current 3.0V –18 –130 –62 µA

5.5V –18 –180 –112 µA

I

CC

Supply Current 3.0V 20 7 mA @ 16 MHz [4,5]

5.5V 25 20 mA @ 16 MHz [4,5]

3.0V 15 5 mA @ 12 MHz [4,5]

5.5V 20 15 mA @ 12 MHz [4,5]

CP96DZ82900 11

Z86C30/C31/C32/C40

CP96DZ82900

ZILOG

DC ELECTRICAL CHARACTERISTICS (Continued)

TA = –40°C Typical [1]

V

CC

to 105°C@

Sym Parameter Note [3] Mi n Max 25°C Units Conditions Notes

I

CC1

Standby Current 3.0V 4.5 2.0 mA VIN = 0V, VCC @ 16 MHz [4,5]
(Halt Mode) 5.5V 8 3.7 mA VIN = 0V, VCC @ 16 MHz [4,5]

3.0V 4 1.5 mA VIN = 0V, VCC @ 12 MHz [4,5]

5.5V 6 3.2 mA VIN = 0V, VCC @ 12 MHz [4,5]

3.0V 3.4 1.5 mA Clock Divide by 16 @ 16 MHz [4,5]

5.5V 7.0 2.9 mA Clock Divide by 16 @ 16 MHz [4,5]

3.0V 3 1.2 mA Clock Divide by 16 @ 12 MHz [4,5]

5.5V 5 2.5 mA Clock Divide by 16 @ 12 MHz [4,5]

I

CC2

Standby Current 3.0V 8 2 µAV

IN

= OV, V

CC

[6,11]

(Stop Mode) WDT is not Running

5.5V 10 4 µAV

IN

= OV, V

CC

[6,11]

WDT is not Running

3.0V 600 310 µAV

IN

= OV, V

CC

[6,11]

WDT is Running

5.5V 1000 600 µAV

IN

= OV, V

CC

[6,11]

WDT is Running

I

ALL

Auto Latch Low Current 3.0V 0.7 10 2.4 µA OV < VIN < V

CC

[9]

5.5V 1.4 20 4.7 µA OV < VIN < V

CC

[9]

I

ALH

Auto Latch High Current 3.0V –0.6 –7 –1.8 µA OV < VIN < V

CC

[9]

5.5V –1.0 –10 –3.8 µA OV < VIN < V

CC

[9]

T

POR

Power On Reset 3.0V 3.0 25 7 mS

5.5V 2.0 14 4 mS

V

LV

Low Voltage Protection 1.8 3.3 2.6 V 4 MHz max INT CLK Freq.

Note:

[1] Typicals are at VCC = 5.0V and 3.3V.
[2] GND=0V.
[3] The VCC voltage spec. of 3.0V guarantees 3.3V ± 0.3V and the VDD voltage spec. of 5.5V guarantees 5.0V ± 0.5V.
[4] All outputs unloaded, I/O pins floating, inputs at rail.
[5] CL1= CL2 = 100pF.
[6] Same as note [4] except inputs at VCC.
[[7] Z86C40 only.
[8] STD Mode (not Low EMI Mode).
[9] Auto Latch (mask option) selected.
[10] For analog comparator inputs when analog comparators are enabled.
[11] Clock must be forced Low, when XTAL1 is clock driven and XTAL2 is floating.
[7] Z86C40 only.

12 CP96DZ82900

Z86C30/C31/C32/C40

CP96DZ82900ZILOG

AC CHARACTERISTICS

External I/O or Memory Read and Write Timing Diagram (Z86C40 Only)

R//W, /DM

9

12

18

3

16

13

4

5

8 11

6

17

10

15

7

14

21

Port 0

Port 1

/AS

/DS

(Read)

Port1

/DS

(Write)

A7 - A0 D7 - D0 IN

D7 - D0 OUTA7 - A0

19

20

External I/O or Memory Read/Write Timing

(Z86C40 Only)

CP96DZ82900 13

Z86C30/C31/C32/C40

CP96DZ82900

ZILOG

AC CHARACTERISTICS

External I/O or Memory Read and Write Timing Table (Z86C40 Only)

(SCLK/TCLK = XTAL/2)

TA=–40°C to 105°CTA = –40°C to +105°C

Note [3] 12 MHz 16 MHz 12 MHz 16 MHz

NoSymbol Parameter V

CC

Min Max Min Max Min Max Min Max Units Notes

1 TdA(AS) Address Valid to /AS Rise Delay 3.0 35 25 35 25 ns [2]

5.5 35 25 35 25 ns

2 TdAS(A) /AS Rise to Address Float Delay 3.0 45 35 45 35 ns [2]

5.5 45 35 45 35 ns

3 TdAS(DR) /AS Rise to Read Data Req’d Valid 3.0 250 180 250 180 ns [1,2]

5.5 250 180 250 180 ns

4 TwAS /AS Low Width 3.0 55 40 55 40 ns [2]

5.5 55 40 55 40 ns

5 TdAS(DS) Address Float to /DS Fall 3.0 0 0 0 0 ns

5.500 00ns

6 TwDSR /DS (Read) Low Width 3.0 200 135 200 135 ns [1,2]

5.5 200 135 200 135 ns

7 TwDSW /DS (Write) Low Width 3.0 110 80 110 80 ns [1,2]

5.5 110 80 110 80 ns

8 TdDSR(DR) /DS Fall to Read Data Req’d Valid 3.0 150 75 150 75 ns [1,2]

5.5 150 75 150 75 ns

9 ThDR(DS) Read Data to /DS Rise Hold Time 3.00 0 0 0 0 ns [2]

5.500 00ns

10 TdDS(A) /DS Rise to Address Active Delay 3.0 45 50 45 50 ns [2]

5.5 55 50 55 50 ns

11 TdDS(AS) /DS Rise to /AS Fall Delay 3.0 30 35 30 35 ns [2]

5.5 45 35 45 55 ns

12 TdR/W(AS) R//W Valid to /AS Rise Delay 3.0 45 25 45 25 ns [2]

5.5 45 25 45 25 ns

13 TdDS(R/W) /DS Rise to R//W Not Valid 3.0 45 35 45 35 ns [2]

5.5 45 35 45 35 ns

14 TdDW(DSW) Write Data Valid to /DS Fall (Write) Delay 3.0 55 25 55 25 ns [2]

5.5 55 25 55 25 ns

15 TdDS(DW) /DS Rise to Write Data Not Valid Delay 3.0 45 35 45 35 ns [2]

5.5 45 35 45 35 ns

16 TdA(DR) Address Valid to Read Data Req’d Valid 3.0 310 230 310 230 ns [1,2]

5.5 310 230 310 230 ns

17 TdAS(DS) /AS Rise to /DS Fall Delay 3.0 65 45 65 45 ns [2]

5.5 65 45 65 45 ns

18 TdDM(AS) /DM Valid to /AS Fall Delay 3.0 35 30 35 30 ns [2]

5.5 35 30 35 30 ns

19 TdDS(DM) /DS Rise to DM Valid Delay 3.0 45 35 45 35 ns

5.5 45 35 45 35 ns

20 ThDS(AS) /DS Valid to Address Valid Hold Time 3.0 45 35 45 35 ns

5.5 45 35 45 35 ns

Notes:

[1] When using extended memory timing add 2 TpC.
[2] Timing numbers given are for minimum TpC.
[3] The VCC voltage specification of 3.0V guarantees 3.3V ± 0.3V, and the
VDD voltage specification of 5.5V guarantees 5.0V ± 0.5V.

Standard Test Load
All timing references use 0.7 VCC for a logic 1 and 0.2 VCC for a logic 0.
For Standard Mode (not Low-EMI Mode for outputs) with SMR D1 = 0,
D0 = 0.

14 CP96DZ82900

Z86C30/C31/C32/C40

CP96DZ82900ZILOG

AC ELECTRICAL CHARACTERISTICS

Additional Timing Diagram

Additional Timing

Clock

1

3

4

8

2 2 3

TIN

IRQN

6

5

7 7

11

Clock

Setup

10

9

Stop

Mode

Recovery

Source

CP96DZ82900 15

Z86C30/C31/C32/C40

CP96DZ82900

ZILOG

AC ELECTRICAL CHARACTERISTICS

Additional Timing Table (Divide-By-One Mode)

TA = 0°C to +70°CTA = 40°C to +105°C

V

CC

4 MHz 4 MHz

No Symbol Parameter Note [6] Mi n M ax M i n M ax Units Notes

1 TpC Input Clock Period 3.0V 250 DC 250 DC ns [1,7,8]

5.5V 250 DC 250 DC ns [1,7,8]

2 TrC,TfC Clock Input Rise & Fall Times 3.0V 25 25 ns [1,7,8]

5.5V 25 25 ns [1,7,8]

3 TwC Input Clock Width 3.0V 100 100 ns [1,7,8]

5.5V 100 100 ns [1,7,8]

4 TwTinL Timer Input Low Width 3.0V 100 100 ns [1,7,8]

5.5V 70 70 ns [1,7,8]

5 TwTinH Timer Input High Width 3.0V 5TpC 5TpC [1,7,8]

5.5V 5TpC 5TpC [1,7,8]

6 TpTin Timer Input Period 3.0V 8TpC 8TpC [1,7,8]

5.5V 8TpC 8TpC [1,7,8]

7 TrTin, Timer Input Rise & Fall Timer 3.0V 100 100 ns [1,7,8]

TfTin 5.5V 100 100 ns [1,7,8]

8A TwIL Int. Request Low Time 3.0V 100 100 ns [1,2,7,8]

5.5V 70 70 ns [1,2,7,8]

8B TwIL Int. Request Low Time 3.0V 5TpC 5TpC [1,3,7,8]

5.5V 5TpC 5TpC [1,3,7,8]

9 TwIH Int. Request Input High Time 3.0V 5TpC 5TpC [1,2,7,8]

5.5V 5TpC 5TpC [1,2,7,8]

10 Twsm STOP Mode Recovery Width Spec 3.0V 12 12 ns [4,8]

5.5V 12 12 ns [4,8]

11 Tost Oscillator Start-up Time 3.0V 5TpC 5TpC [4,8,9]

5.5V 5TpC 5TpC [4,8,9]

Notes:

[1] Timing Reference uses 0.7 VCC for a logic 1 and 0.2 VCC for a logic 0.
[2] Interrupt request via Port 3 (P31-P33).
[3] Interrupt request via Port 3 (P30).
[4] SMR-D5 = 1, POR STOP Mode Delay is on.
[5] Reg. WDTMR.
[6] The VCC voltage specification of 3.0V guarantees 3.3V ± 0.3V, and
the VDD voltage specification of 5.5V guarantees 5.0V ± 0.5V.
[7] SMR D1 = 0.
[8] Maximum frequency for internal system clock is 4 MHz when
using XTAL divide-by-one mode.
[9] For RC and LC oscillator, and for oscillator driven by clock driver.

16 CP96DZ82900

Z86C30/C31/C32/C40

CP96DZ82900ZILOG

AC ELECTRICAL CHARACTERISTICS

Additional Timing Table

TA = –40°C to +105 °C

TA = 0°C to +70°C

V

CC

16 MHz 12 MHz

No Symbol Parameter Note [6] Min Max Mi n Max Units Notes

1 TpC Input Clock Period 3.0V 62.5 DC 83 DC ns [1,7,8]

5.5V 62.5 DC 83 DC ns [1,7,8]

2 TrC,TfC Clock Input Rise & Fall Times 3.0V 15 15 ns [1,7,8]

5.5V 15 15 ns [1,7,8]

3 TwC Input Clock Width 3.0V 31 26 ns [1,7,8]

5.5V 31 26 ns [1,7,8]

4 TwTinL Timer Input Low Width 3.0V 100 100 ns [1,7,8]

5.5V 70 70 ns [1,7,8]

5 TwTinH Timer Input High Width 3.0V 5TpC 5TpC [1,7,8]

5.5V 5TpC 5TpC [1,7,8]

6 TpTin Timer Input Period 3.0V 8TpC 8TpC [1,7,8]

5.5V 8TpC 8TpC [1,7,8]

7 TrTin, Timer Input Rise & Fall Timer 3.0V 100 100 ns [1,7,8]

TfTin 5.5V 100 100 ns [1,7,8]

8A TwIL Int. Request Low Time 3.0V 100 100 ns [1,2,7,8]

5.5V 70 70 ns [1,2,7,8]

8B TwIL Int. Request Low Time 3.0V 5TpC 5TpC [1,3,7,8]

5.5V 5TpC 5TpC [1,3,7,8]

9 TwIH Int. Request Input High Time 3.0V 5TpC 5TpC [1,2,7,8]

5.5V 5TpC 5TpC [1,2,7,8]

10 Twsm STOP Mode Recovery Width Spec 3.0V 12 12 ns [4,8]

5.5V 12 12 ns [4,8]

11 Tost Oscillator Start-up Time 3.0V 5TpC 5TpC [4,8]

5.5V 5TpC 5TpC [4,8]

12 Twdt Watch-Dog Timer Delay Time 3.0V 10 10 ms D0 = 0 [5,11]

Before Refresh 5.5V 5 5.0 ms D1 = 0 [5,11]

3.0V 20 20 ms D0 = 1 [5,11]

5.5V 10 10 ms D1 = 0 [5,11]

3.0V 40 40 ms D0 = 0 [5,11]

5.5V 20 20 ms D1 = 1 [5,11]

3.0V 160 160 ms D0 = 1 [5,11]

5.5V 80 80 ms D1 = 1 [5,11]

Notes:

[1] Timing Reference uses 0.7 VCC for a logic 1 and 0.2 VCC for a logic 0.
[2] Interrupt request via Port 3 (P31-P33).
[3] Interrupt request via Port 3 (P30).
[4] SMR-D5 = 1, POR STOP Mode Delay is on.
[5] Reg. WDTMR.
[6] The VCC voltage spec. of 3.0V guarantees 3.3V ± 0.3V and the VDD voltage spec. of 5.5V guarantees 5.0V ± 0.5V.
[7] SMR D1 = 0.
[8] Maximum frequency for internal system clock is 4 MHz when using XTAL divide-by-one mode.
[9] For RC and LC oscillator, and for oscillator driven by clock driver.
[10] Standard Mode (not Low EMI output ports).
[11] Using internal RC.

CP96DZ82900 17

Z86C30/C31/C32/C40

CP96DZ82900

ZILOG

AC ELECTRICAL CHARACTERISTICS

Handshake Timing Diagrams

Input Handshake Timing

Output Handshake Timing

Data Out

/DAV

(Output)

RDY

(Input)

Next Data Out Valid

Delayed RDY

Delayed DAV

Data Out Valid

7

8 9

10

11

Data In

1

2

3

4 5 6

/DAV

(Input)

RDY

(Output)

Next Data In Valid

Delayed RDY

Delayed DAV

Data In Valid

Zilog’s products are not authorized for use as critical compo­nents in life support devices or systems unless a specific written
agreement pertaining to such intended use is executed between
the customer and Zilog prior to use. Life support devices or
systems are those which are intended for surgical implantation
into the body, or which sustains life whose failure to perform,
when properly used in accordance with instructions for use
provided in the labeling, can be reasonably expected to result in
significant injury to the user.

Zilog, Inc. 210 East Hacienda Ave.
Campbell, CA 95008-6600
Telephone (408) 370-8000
Telex 910-338-7621
FAX 408 370-8056
Internet: http://www.zilog.com

© 1997 by Zilog, Inc. All rights reserved. No part of this document
may be copied or reproduced in any form or by any means
without the prior written consent of Zilog, Inc. The information in
this document is subject to change without notice. Devices sold
by Zilog, Inc. are covered by warranty and patent indemnification
provisions appearing in Zilog, Inc. Terms and Conditions of Sale
only. Zilog, Inc. makes no warranty, express, statutory, implied or
by description, regarding the information set forth herein or
regarding the freedom of the described devices from intellectual
property infringement. Zilog, Inc. makes no warranty of mer­chantability or fitness for any purpose. Zilog, Inc. shall not be
responsible for any errors that may appear in this document.
Zilog, Inc. makes no commitment to update or keep current the
information contained in this document.