參數(shù)資料
型號: CY28419ZXCT
廠商: Silicon Laboratories Inc
文件頁數(shù): 14/15頁
文件大?。?/td> 0K
描述: IC CLOCK SERV CK419 56TSSOP
標準包裝: 2,000
類型: *
PLL:
輸入: 晶體
輸出: 時鐘
電路數(shù): 1
比率 - 輸入:輸出: 1:25
差分 - 輸入:輸出: 無/是
頻率 - 最大: 400MHz
除法器/乘法器: 是/無
電源電壓: 3.135 V ~ 3.465 V
工作溫度: 0°C ~ 70°C
安裝類型: *
封裝/外殼: *
供應商設(shè)備封裝: *
包裝: *
CY28419
........................Document #: 38-07444 Rev. *D Page 8 of 15
Crystal Loading
Crystal loading plays a critical role in achieving low ppm perfor-
mance. To realize low-ppm performance, the total capacitance
the crystal will see must be considered to calculate the appro-
priate capacitive loading (CL).
The following diagram shows a typical crystal configuration
using the two trim capacitors. An important clarification for the
following discussion is that the trim capacitors are in series
with the crystal not parallel. It’s a common misconception that
load capacitors are in parallel with the crystal and should be
approximately equal to the load capacitance of the crystal.
This is not true.
Calculating Load Capacitors
In addition to the standard external trim capacitors, trace
capacitance and pin capacitance must also be considered to
correctly calculate crystal loading. As mentioned previously,
the capacitance on each side of the crystal is in series with the
crystal. This means the total capacitance on each side of the
crystal must be twice the specified crystal load capacitance
(CL). While the capacitance on each side of the crystal is in
series with the crystal, trim capacitors (Ce1,Ce2) should be
calculated to provide equal capacitive loading on both sides.
As mentioned previously, the capacitance on each side of the
crystal is in series with the crystal. This mean the total capac-
itance on each side of the crystal must be twice the specified
load capacitance(CL). While the capacitance on each side of
the crystal is in series with the crystal, trim capac-
itors(Ce1,Ce2) should be calculated to provide equal capaci-
tative loading on both sides.
Use the following formulas to calculate the trim capacitor
values fro Ce1 and Ce2.
CL....................................................Crystal load capacitance
CLe......................................... Actual loading seen by crystal
..................................... using standard value trim capacitors
Ce..................................................... External trim capacitors
Cs ........................................... Stray capacitance (trace, etc.)
Ci ...........................................................Internal capacitance
................................................ (lead frame, bond wires, etc.)
PD# (Power-down) Clarification
The PD# pin is used to shut off all clocks and PLLs without
having to remove power from the device. All clocks are shut
down in a synchronous manner so has not to cause glitches
while transitioning to the power-down state.
PD#–Assertion
When PD# is sampled low by two consecutive rising edges of
the CPUC clock then all clock outputs (except CPU) clocks
must be held low on their next high to low transition. CPU
clocks must be held with CPUT clock pin driven high with a
value of 2x Iref and CPUC undriven as the default condition.
There exists an I2C bit that allows for the CPUT/C outputs to
be three-stated during power-down. Due to the state of internal
logic, stopping and holding the REF clock outputs in the LOW
state may require more than one clock cycle to complete.
Figure 1. Crystal Capacitive Clarification
XTAL
Ce2
Ce1
Cs1
Cs2
X1
X2
Ci1
Ci2
Clock Chip
(C Y28419)
Trace
2.8pF
Trim
33pF
Pin
3 to 6p
Figure 2. Crystal Loading Example
Load Capacitance (each side)
Total Capacitance (as seen by the crystal)
Ce = 2 * CL – (Cs + Ci)
Ce1 + Cs1 + Ci1
1
+
1
(
)
1
=
CLe
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