Specifications
2 C33 Macro Specifications
S1C33 ASIC DESIGN GUIDE
EPSON
19
EMBEDDED ARRAY S1X50000 SERIES
3) 3.3 V/5.0 V dual power source
(V
SS
=0V)
*1: Either 5.25 V or 5.5 V is possible for n-channel open-drain bidirectional buffers and LIDC and LIDH system input buffers.
*2: This temperature range is the recommended ambient temperature assuming a junction temperature of Tj = 0 to 85 °C.
*3: This temperature range is the recommended ambient temperature assuming a junction temperature of Tj = -40 to 125 °C.
4) 2.0V/3.3V dual power source
(V
SS
=0V)
*1: Either 5.25 V or 5.5 V is possible for n-channel open-drain bidirectional buffers and the LIDC and LIDH system or HIDC
and HIDH system input buffers.
*2: This temperature range is the recommended ambient temperature assuming a junction temperature of Tj = 0 to 85 °C.
*3: This temperature range is the recommended ambient temperature assuming a junction temperature of Tj = -40 to 125 °C.
Item Symbol Condition Min. Typ. Max. Unit
*
Supply voltage (high voltge) HV
DD
4.75 5.00 5.25 V
4.50 5.00 5.50 V
Supply voltage (low voltge) LV
DD
3.00 3.30 3.60 V
2.70 3.00 3.30 V
Input voltage
H
VI
V
SS
– HV
DD
V
L
VI
V
SS
– V
SS
– 1
CPU operating clock frequency f
CPU
ROM-less model and 3.0±0.3V – – 60 MHz
ROM model and 3.0±0.3V – – 50 MHz
Low-speed oscillation frequency f
OSC1
– 32.768 – KHz
Operating temperature Ta Tj=0 to 85°C 0 25 70*
2
°C
Tj=-40 to 125°C -40 25 85*
3
°C
Input rise time (normal input) tri – – 100 ns
Input fall time (normal input) tfi – – 100 ns
Input rise time (schmitt input) tri – – 10 ms
Input fall time (schmitt input) tfi – – 10 ms
Item Symbol Condition Min. Typ. Max. Unit
*
Supply voltage (high voltge) HV
DD
3.00 3.30 3.60 V
Supply voltage (low voltge) LV
DD
1.80 2.20 2.20 V
Input voltage
H
VI
V
SS
– HV
DD
*
1
V
L
VI
V
SS
– LV
DD
*
1
V
CPU operating clock frequency f
CPU
– – 20 MHz
Low-speed oscillation frequency f
OSC1
– 32.768 – KHz
Operating temperature Ta
0 25 70*
2
°C
-40 25 85*
3
°C
Input rise time (normal input)
Htri – – 50 ns
Ltri 100 ns
Input fall time (normal input)
Htri – – 50 ns
Ltri 100 ns
Input rise time (schmitt input)
Htri – – 5 ms
Ltri 10 ms
Input fall time (schmitt input)
Htri – – 5 ms
Ltri 10 ms