34.12.1 Crystal Oscillator (XOSC) Characteristics

Digital Clock Characteristics

The following table describes the oscillator characteristics when a digital clock is applied on XIN.

Table 34-33. Digital Clock Characteristics
SymbolParameterConditionsMin.Typ.Max.Units
fCPXINXIN clock frequencyDigital mode--32MHz

Crystal Oscillator Characteristics

The following table describes the oscillator characteristics when a crystal is connected between XIN and XOUT as shown in the following figure. The user must choose a crystal oscillator where the crystal load capacitance CL is within the range given in the table. The exact value of CL can be found in the crystal data sheet. The capacitance of the external capacitors (CLEXT) can then be computed as follows:

Load Capacitance Equation

CLOAD = ([CXIN + CLEXT] * [CXOUT + CLEXT]) / ([CXIN + CLEXT + CLEXT + CXOUT]) + CSTRAY

Where:

CLOAD = Crystal Mfg. CLOAD specification

CXIN = XOSC XIN pin data sheet specification

CXOUT = XOSC XOUT pin data sheet specification

CLEXT = Required external crystal load capacitor

CSTRAY (Osc PCB capacitance) = 1.5 pF per 12.5 mm (0.5 inches) (TRACE W = 0.175 mm, H = 36 μm, T = 113 μm)

For CXIN and CXOUT within 4 pF of each other, assume CXIN ~= CXOUT ~= CXTAL_EFF = ((CXIN+CXOUT) / 2) (Averaging CXIN and CXOUT will effect final calculated CLOAD value by less than 0.25 pF.)

The load capacitance equation can then be simplified as follows:

CLEXT = 2*CLOAD - CXTAL_EFF - 2*CSTRAY

Table 34-34. Crystal Oscillator Characteristics
SymbolParameterConditionsMin.Typ.Max.Units
fOUTCrystal oscillator frequency-0.4-32MHz
ESRCrystal Equivalent Series Resistance
Safety Factor = 3

The AGC doesn’t have any noticeable impact on these measurements.

f = 0.455 MHz, CL = 100 pF
, XOSC.GAIN = 0--5.6KΩ
f = 2 MHz, CL = 20 pF,
 XOSC.GAIN = 0--330
f = 4 MHz, CL = 20 pF
, XOSC.GAIN = 1--240
f = 8 MHz, CL = 20 pF
, XOSC.GAIN = 2--105
f = 16 MHz, CL = 20 pF
,XOSC.GAIN = 3--60
f = 32 MHz, CL = 18 pF
,XOSC.GAIN = 4--55
CXINParasitic capacitor load--5.9-pF
CXOUTParasitic capacitor load-3.2-pF
Current Consumptionf = 2 MHz, CL = 20 pF, XOSC.GAIN = 0, AGC off-65240μA
f = 2 MHz, CL = 20 pF, XOSC.GAIN = 0, AGC on-52240
f = 4 MHz, CL = 20 pF, XOSC.GAIN = 1, AGC off-117309
f = 4 MHz, CL = 20 pF, XOSC.GAIN = 1, AGC on-74281
f = 8 MHz, CL = 20 pF, XOSC.GAIN = 2, AGC off-226435
f = 8 MHz, CL = 20 pF, XOSC.GAIN = 2, AGC on-128356
f = 16 MHz, CL = 20 pF, XOSC.GAIN = 3, AGC off-502748
f = 16MHz, CL = 20 pF, XOSC.GAIN = 3, AGC on-307627
f = 32 MHz, CL = 18 pF, XOSC.GAIN = 4, AGC off-16222344
f = 32 MHz, CL = 18pF, XOSC.GAIN = 4, AGC on-6151422
tSTARTUPStartup timef = 2 MHz, CL = 20 pF,
XOSC.GAIN = 0, ESR = 600Ω-15.6K51.0Kcycles
f = 4MHz, CL = 20 pF,
XOSC.GAIN = 1, ESR = 100Ω-6.3K20.1K
f = 8 MHz, CL = 20 pF,
XOSC.GAIN = 2, ESR = 35Ω-6.2K20.3K
f = 16 MHz, CL = 20 pF,
XOSC.GAIN = 3, ESR = 25Ω-7.7K21.2K
f = 32 MHz, CL = 18 pF,
XOSC.GAIN = 4, ESR = 40Ω-6.0K14.2K
Figure 34-6. Oscillator Connection