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Z86C34 Datasheet, PDF (11/70 Pages) Zilog, Inc. – CMOS Z8 MCUs WITH ASCI UART OFFER EFFICIENT, COST-EFFECTIVE DESIGN FLEXIBILITY
ZiLOG
Z86C34/C35/C36/C44/C45/C46
CMOS Z8® MCUs with ASCI UART
Table 5. DC Characteristics (Continued)
TA =
0°C to +70°C
TA =
–40°C to +105°C
Typical2
Sym Parameter VCC1 Min
Max
Min
Max
@25°C Units Conditions Notes
ICC1
Standby
3.0V
4.5
Current
(HALT
Mode)
5.5V
8
3.0V
3.4
4.5
2.0
mA VIN = 0V, VCC
6
@ 16 MHz
8
3.7
mA VIN = 0V, VCC
6
@ 16 MHz
3.4
1.5
mA Clock Divide- 6
by-16 @ 16
MHz
5.5V
7.0
7.0
2.9
mA Clock Divide- 6
by-16 @ 16
MHz
ICC2
Standby
3.0V
8
Current
(STOP
Mode)
5.5V
10
8
2
µA VIN = 0V, VCC 7,8
WDT is not
Running
10
4
µA VIN = 0V, VCC 7,8
WDT is not
Running
3.0V
500
5.5V
800
600
1000
310
µA VIN = 0V, VCC 7,8,9
WDT is
Running
600
µA VIN = 0V, VCC 7,8,9
WDT is
Running
VICR
Input
Common
Mode
3.0V
5.5V
Voltage
Range
0
VCC–1.0V
0
VCC–1.5V
0
VCC–1.0V
0
VCC–1.5V
IALL
Auto Latch 3.0V
0.7
8
0.7
10
3
Low
Current
5.5V
1.4
15
1.4
20
5
V
5
V
5
µA 0V < VIN < VCC 10
µA 0V < VIN < VCC 10
IALH Auto Latch 3.0V –0.6
–5
–0.6
–7
High
Current
5.5V –1.0
–8
–1.0
–10
–3
µA 0V < VIN < VCC 10
–6
µA 0V < VIN < VCC 10
Notes:
1. The VCC voltage specification of 3.0V guarantees 3.3V ±0.3V with typicals at VCC = 3.3V, and the VCC voltage
specification of 5.5V guarantees 5.0V ±0.5V with typicals at VCC = 5.0V.
2. Typicals are at VCC = 5.0V and 3.3V.
3. Standard Mode (not Low EMI).
4. Not applicable to devices in 28-pin packages.
5. For analog comparator, inputs when analog comparators are enabled.
6. All outputs unloaded, I/O pins floating, inputs at rail.
7. Same as note 6, except inputs at VCC.
8. Clock must be forced Low, when XTAL 1 is clock-driven and XTAL2 is floating.
9. 0ºC to 70ºC (standard temperature).
10. Auto Latch (Mask Option) selected.
11. The VLV voltage increases as the temperature decreases and overlaps lower VCC operating region.
12. –40˚C to 150˚C (extended temperature).
DS007601-Z8X0499
PRELIMINARY
11