Datasheet
RL78/L12 CHAPTER 30 ELECTRICAL SPECIFICATIONS (A, G: T
A = -40 to +85°C)
R01UH0330EJ0200 Rev.2.00 882
Dec 13, 2013
3. The smaller maximum transfer rate derived by using fMCK/6 or the following expression is the valid maximum
transfer rate.
Expression for calculating the transfer rate when 2.7 V ≤ EV
DD < 4.0 V and 2.3 V ≤ Vb ≤ 2.7 V
Maximum transfer rate =
1
[bps]
{−Cb × Rb × ln (1 −
2.0
Vb
)} × 3
1
Transfer rate × 2
− {−Cb × Rb × ln (1 −
2.0
Vb
)}
Baud rate error (theoretical value) =
× 100 [%]
(
1
Transfer rate
) × Number of transferred bits
* This value is the theoretical value of the relative difference between the transmission and reception sides.
4. This value as an example is calculated when the conditions described in the “Conditions” column are met.
Refer to Note 3 above to calculate the maximum transfer rate under conditions of the customer.
5. Use it with EV
DD ≥ Vb.
6. The smaller maximum transfer rate derived by using f
MCK/6 or the following expression is the valid maximum
transfer rate.
Expression for calculating the transfer rate when 1.8 V ≤ EV
DD < 3.3 V and 1.6 V ≤ Vb ≤ 2.0 V
Maximum transfer rate =
1
[bps]
{−C
b × Rb × ln (1 −
1.5
Vb
)} × 3
1
Transfer rate × 2
− {−Cb × Rb × ln (1 −
1.5
Vb
)}
Baud rate error (theoretical value) =
× 100 [%]
(
1
Transfer rate
) × Number of transferred bits
* This value is the theoretical value of the relative difference between the transmission and reception sides.
7. This value as an example is calculated when the conditions described in the “Conditions” column are met.
Refer to Note 6 above to calculate the maximum transfer rate under conditions of the customer.
Caution Select the TTL input buffer for the RxDq pin and the N-ch open drain output (V
DD tolerance (32-pin to 52-
pin products)/EV
DD tolerance (64-pin products)) mode for the TxDq pin by using port input mode
register g (PIMg) and port output mode register g (POMg). For V
IH and VIL, see the DC characteristics
with TTL input buffer selected.