1.3.3 2.385V–2.625V Power Supply Voltage

Table 1-5. Electrical Performance for 2.385V–2.625V Power Supply Voltage
Parameter	Symbol	Min.	Typ.	Max.	Units
Supply
Voltage (Note 1)	V_DD	2.385	2.5	2.625	V
Maximum Voltage	—	–0.5	—	6.5	V
≤25.000 MHz Current (Note 2)	I_DD	—	—	6	mA
20.001 MHz–40.000 MHz Current	I_DD	—	—	8	mA
40.001 MHz–60.000 MHz Current	I_DD	—	—	12	mA
>60.000 MHz Current	I_DD	—	—	30	mA
Current, Output Disabled	—	—	—	10	uA
Frequency
Nominal Frequency	f_N	0.250	—	125	MHz
Stability, Ordering Information	—	±25, ±50 or ±100			ppm
Outputs
Output Logic Levels, High	V_OH	0.9 × V_DD	—	—	V
Output Logic Levels, Low	V_OL	—	—	0.1 × V_DD	V
Load	I_OUT	—	—	15	pF
Output Rise/Fall Time (Note 2)	t_R/t_F	—	—	5	ns
Duty Cycle (Note 3)	DC	45	50	55	%
Period Jitter (Note 4) Peak-to-Peak	фJ	—	—	25	ps
Enable/Disable
Output Enable (Note 4)	V_IH	0.7 × V_DD	—	—	V
Output Disable (Note 4)	V_IL	—	—	0.3 × V_DD	V
Disable Time	—	—	—	150	ns
Start-Up Time	t_SU	—	—	5	ms
Operating Temperature, Ordering Information	T_OP	–20/70, –40/85 or –40/105			°C
Notes: The power supply should have by-pass capacitors as close to the supply and to ground as possible, for example 0.1 uF and 0.01 uF. Parameters are tested with production test circuit (see Figure 1-5 below). Duty Cycle is measured as On Time/Period (see Figure 1-6 below). A 10 kΩ pull-up resistor to VDD is recommended if E/D is unused.

Figure 1-5. Test Circuit for 2.385V–2.625V Power Supply Voltage

Figure 1-6. Waveform for 2.385V–2.625V Power Supply Voltage