SM8706A [NPC]
Clock Generator for DVD Players; 时钟发生器的DVD播放机型号: | SM8706A |
厂家: | NIPPON PRECISION CIRCUITS INC |
描述: | Clock Generator for DVD Players |
文件: | 总8页 (文件大小:102K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
SM8706A
Clock Generator for DVD Players
NIPPON PRECISION CIRCUITS INC.
OVERVIEW
The SM8706A is a clock generator IC that generates 3 clocks with 6 outputs from a 36.8640MHz master clock
for application in DVD players. The SM8706A has 2 built-in PLL circuits that together with a crystal oscillator
can generate the 384fs and 768fs audio system clocks, 27MHz and 54MHz video system clocks, and
16.9344MHz and 33.8688MHz signal processor system clocks required for a DVD player. The SM8706A also
supports the 44.1kHz and 48kHz sampling frequencies, and the sampling frequency can be switched while the
device is operating.
FEATURES
PINOUT
(Top view)
ꢀ 36.8640MHz master clock (internal PLL reference
clock)
ꢀ Generated clocks
• Video system output: 27MHz, 54MHz
• Audio system output: 384fs, 768fs
• Signal processor system output: 16.9344MHz,
33.8688MHz
1
16
VDD1
CE
VSS1
MO1
MO2
VDD2
VSS2
XTI
SO2
FSEL
SO1
ꢀ Supported sampling frequency fs: 44.1/48kHz
ꢀ Low jitter output: 40ps (typ, 1-sigma, 25pF load)
ꢀ Supply voltage: 3.3V 0.3V
ꢀ 16-pin VSOP package
VDD3
VSS3
AO2
AO1
APPLICATIONS
8
9
XTO
ꢀ DVD players
ꢀ DVD car navigation system
PACKAGE DIMENSIONS
ORDERING INFORMATION
(Unit: mm)
Weight: 0.07g
Device
Package
SM8706AV
16-pin VSOP
+ 0.1
- 0.05
0.15
0.275typ
5.1 0.2
0 to 10
0.65
0.10
+ 0.1
0.5 0.2
0.22
- 0.05
M
0.12
NIPPON PRECISION CIRCUITS—1
SM8706A
BLOCK DIAGRAM
FSEL
Reference
Divider 0
Phase
Detector 0
Charge
Pump 0
AO1
AO2
LPF 0
VCO 0
XTI
X'tal
OSC
XTO
Loop
Divider 0
(PLL 0)
SO1
SO2
Control
Logic
Reference
Divider 1
Phase
Detector 1
Charge
Pump 1
LPF 1
VCO 1
Loop
Divider 1
MO1
MO2
(PLL 1)
CE
PIN DESCRIPTION
Number
Name
VDD1
VSS1
MO1
MO2
VDD2
VSS2
XTI
I/O
–
Description
1
2
Supply 1 for digital block
–
Ground 1 for digital block
3
O
O
–
Video system output 1 (27MHz fixed)
Video system output 2 (54MHz fixed)
Supply 2 for analog block
4
5
6
–
Ground 2 for analog block
7
I
Crystal oscillator connection or external clock input
Crystal oscillator connection
8
XTO
O
O
O
–
9
AO1
Audio system output 1 (384fs output)
Audio system output 2 (768fs output)
Ground 3 for digital block
10
11
12
13
AO2
VSS3
VDD3
SO1
–
Supply 3 for digital block
O
Signal processor system output 1 (16.9344MHz fixed)
Sampling frequency select
FSEL = HIGH: fs = 48kHz
FSEL = LOW: fs = 44.1kHz
(with internal pull-up resistor, Schmitt-trigger input)
14
FSEL
I
15
16
SO2
CE
O
I
Signal processor system output 2 (33.8688MHz fixed)
Chip enable (HIGH = Enable, LOW = Disable)
NIPPON PRECISION CIRCUITS—2
SM8706A
Note: Unless otherwise noted, VDD applies to VDD1, VDD2, and VDD3. Similarly, VSS applies to VSS1,
VSS2, and VSS3.
SPECIFICATIONS
Absolute Maximum Ratings
Parameter
Symbol
Condition
Rating
Unit
Supply voltage range
V
, V , V
DD1 DD2 DD3
− 0.3 to 6.5
V
V
V
– V
– V
,
,
DD1
DD1
DD2
DD3
Supply voltage deviation
0.1
V
V
– V
DD3
DD2
Input voltage range
V
− 0.3 to V + 0.3
DD
V
V
IN
Output voltage range
Power dissipation
V
− 0.3 to V + 0.3
DD
OUT
P
165
mW
°C
D
Storage temperature range
T
− 55 to 125
stg
Recommended Operating Conditions
V
= V
= V
= V
= 0V unless otherwise noted.
SS
SS1
SS2
SS3
Rating
Parameter
Symbol
Condition
Unit
min
+ 3.0
–
typ
–
max
+ 3.6
25
1, 2, 3
Supply voltage ranges
V
, V , V
DD1 DD2 DD3
V
Output load capacitance 1
Output load capacitance 2
C
MO1, SO1, SO2 outputs
–
pF
L1
All outputs excluding MO1,
SO1, SO2, XTO
C
–
–
15
pF
L2
Master clock frequency
f
When using crystal oscillator
–
36.8640
–
–
MHz
XTAL
Operating temperature range
T
– 40
+ 85
°C
opr
1. The supply voltage is defined relative to V = 0V
SS
2. The supply voltages applied on VDD1, VDD2, and VDD3 should be derived from a common supply source.
3. If the supply voltages on VDD1, VDD2, and VDD3 are from different sources, they should be applied simultaneously. The SM8706A may be damaged
if the supply voltage timing is different.
DC Electrical Characteristics
f
= 36.8640MHz, V = 3.0V 0.3V, V = 0V, Ta = – 40 to 85 °C unless otherwise noted.
DD SS
XTAL
Rating
typ
Parameter
Symbol
Condition
Unit
min
–
max
V
= 3.3V, Ta = 25°C, fs = 48kHz,
Crystal oscillator, no load on all
outputs
DD
Current consumption
I
35
45
mA
DD
HIGH-level input voltage
LOW-level input voltage
V
0.8 V
–
–
–
–
–
–
–
V
IH
DD
FSEL, CE, XTI, V = 3.3V
DD
V
–
–
0.2 V
V
IL
DD
1
HIGH-level input current
I
FSEL, CE, V = V
DD
1
−
µA
µA
µA
µA
IH1
IN
1
LOW-level input current
HIGH-level input current
LOW-level input current
I
FSEL, CE, V = 0V
IN
– 100
–
IL1
I
XTI, V = V
DD
40
−
IH2
IN
I
XTI, V = 0V
IN
– 40
IL2
All outputs excluding XTO,
= − 2mA
HIGH-level output voltage
LOW-level output voltage
V
V
− 0.4
DD
–
–
–
V
V
OH
I
OH
All outputs excluding XTO,
= 2mA
V
–
0.4
OL
I
OL
1. FSEL and CE pins have Schmitt-trigger input and built-in pull-up resistor.
NIPPON PRECISION CIRCUITS—3
SM8706A
AC Electrical Characteristics
f
= 36.8640MHz, V = 3.0V 0.3V, V = 0V, Ta = – 40 to 85 °C unless otherwise noted.
DD SS
XTAL
Rating
typ
Parameter
Symbol
Condition
Unit
min
max
1
External input clock frequency
f
XTI, applies to external clock input use only
–
36.8640
–
MHz
XTI
MO1, SO1, SO2, C = 25 pF, transition
L
–
–
–
–
2.0
2.0
2.0
2.0
–
–
–
–
between V = 0.2V and V = 0.8V
DD
OL
DD
OH
2
Output clock rise time
t
ns
ns
r
Outputs excluding MO1, SO1, SO2, and XTO,
C = 15pF, transition between V = 0.2V
and V = 0.8V
L
OL
DD
OH
DD
MO1, SO1, SO2, C = 25pF, transition
L
between V = 0.8V and V = 0.2V
DD
OH
DD
OL
2
Output clock fall time
t
f
Outputs excluding MO1, SO1, SO2, and XTO,
C = 15pF, transition between V = 0.8V
and V = 0.2V
L
OH
DD
OL
DD
MO1, SO1, SO2, Ta = 25°C, C = 25pF, V
=
L
O
–
–
40
40
50
50
–
–
0.5V
DD
t
3
jitter
(1-sigma)
Output clock jitter
ps
%
Outputs excluding MO1, SO1, SO2, and XTO,
Ta = 25°C, C = 15pF, V = 0.5V
DD
L
O
MO1, SO1, SO2, Ta = 25°C, C = 25pF, V
=
L
O
45
45
55
55
0.5V
DD
2
Output clock duty cycle
Dt
Outputs excluding MO1, SO1, SO2, and XTO,
Ta = 25°C, C =15 pF, V = 0.5V
DD
L
O
2
Settling time
t
All outputs excluding XTO
All outputs excluding XTO
–
–
–
1
1
5
µs
S
2,4
Power-up time
t
ms
P
1. When using an external clock input, the XTI duty should be 50% with 3.3V clock signal amplitude level. The input signal voltage should not exceed the
absolute maximum rating, otherwise damage may occur.
2. The numeric values are measured values obtained using the circuit in Figure 1 and the NPC standard evaluation board.
3. The numeric values are measured values obtained using the circuit in Figure 2 and the NPC standard evaluation board.
4. This is the time, after the supply is turned ON from the OFF state, until the output clock reaches 0.1% of the specified frequency.
36.864MHz
36.864MHz
Oscilloscope
Active Probe
DUT
(Infinium
(HP1152A)
HP54845A)
Jitter
Measurement
System
Oscilloscope
(HP54720D
+HP54721A)
Active Probe
(HP54701A)
DUT
DUT:Device under testing
Frequency &
Time Interval
Analyzer
(ASA, M1)
Passive Probe
(HP10435A)
DUT:Device under testing
(HP5371A)
Figure 1. Measurement circuit 1
Figure 2. Measurement circuit 2
NIPPON PRECISION CIRCUITS—4
SM8706A
FUNCTIONAL DESCRIPTION
36.8640MHz Master Clock
The SM8706A 36.8640MHz master clock circuit is configured, as shown in Figure 3, with the crystal oscillator
element connected between XTI (pin 7) and XTO (pin 8).
Alternatively, the 36.8640MHz master clock can be supplied from an external master clock input on XTI, as
shown in Figure 4.
If an external input clock on XTI is used, it is recommended that the frequency be 36.8640MHz, with 50%
duty, and 3.3V voltage amplitude level.
Furthermore, when using an external clock input, the input signal voltage should not exceed the absolute max-
imum rating, otherwise damage may occur.
C1
XTI (Pin 7)
Internal
Circuits
Oscillator
Control
Logic
XTO (Pin 8)
C2
C1, C2 = 5 to 33pF
MO1 (Pin 3)
MO2 (Pin 4)
Figure 3. Crystal oscillator connection
External Clock
Open
XTI (Pin 7)
Internal
Circuits
Oscillator
Control
Logic
XTO (Pin 8)
MO1 (Pin 3)
MO2 (Pin 4)
Figure 4. External clock input
NIPPON PRECISION CIRCUITS—5
SM8706A
Sampling Frequency and Output Clock Frequency
The SM8706A sampling frequency fs can be switched between 44.1kHz when FSEL (pin 14) is LOW, and
48kHz when FSEL is HIGH. The audio outputs (AO1 and AO2) are a 384fs and 768fs frequency clock, respec-
tively, where fs is determined by the setting on FSEL. In addition, the signal processor outputs (SO1 and SO2)
are a 16.9344MHz and 33.8688MHz frequency clock, respectively, derived from the master clock. The video
outputs (MO1 and MO2) are a 27MHz and 54MHz frequency clock, respectively, derived from the master
clock.
When CE (Pin16) is HIGH, the chip is enabled. When LOW, the chip is disabled. When disabled, all output go
LOW and all internal circuits stop operating. When CE goes LOW to HIGH, the chip moves from disabled to
enabled, the time taken until the output frequency clocks stabilize is a maximum of 5ms.
The SM8706A output clock frequencies that can be selected is shown in Table 1. The output clock response
timing relative to the CE setting is shown in Figure 5.
Table 1. Sampling frequency and output clock frequency (36.8640MHz master clock frequency)
Output clock frequency [MHz]
Sampling
FSEL
(Pin 14)
CE
(Pin 16)
frequency
fs [kHz]
AO1
(Pin 9)
AO2
(Pin 10)
SO1
(Pin 13)
SO2
(Pin 15)
MO1
(Pin 3)
MO2
(Pin 4)
LOW
HIGH
LOW
HIGH
44.1
48
16.9344
18.4320
33.8688
36.8640
16.9344
16.9344
33.8688
33.8688
27.0000
27.0000
54.0000
54.0000
H
L
44.1
48
L
L
L
L
L
L
5ms
(max)
CE
AO1/AO2
SO1/SO2
MO1/MO2
Figure 5. CE switching response
NIPPON PRECISION CIRCUITS—6
SM8706A
Sampling Frequency Switching Settling Time
The clock output response timing when the sampling frequency fs is switched using FSEL is shown in Figure
6. The settling time t for the audio output clock when switching the sampling frequency is 1µs maximum.
s
0.8VDD
FSEL
0.2VDD
tS
tS
AO1
AO2
fs = 44.1kHz
fs = 48kHz
fs = 44.1kHz
27.0000MHz
/54MHz
MO1
MO2
SO1
SO2
16.9344MHz
/33.8688MHz
Figure 6. Output signal switching timing
NIPPON PRECISION CIRCUITS—7
SM8706A
NIPPON PRECISION CIRCUITS INC. reserves the right to make changes to the products described in this data sheet in order to
improve the design or performance and to supply the best possible products. Nippon Precision Circuits Inc. assumes no responsibility for
the use of any circuits shown in this data sheet, conveys no license under any patent or other rights, and makes no claim that the circuits
are free from patent infringement. Applications for any devices shown in this data sheet are for illustration only and Nippon Precision
Circuits Inc. makes no claim or warranty that such applications will be suitable for the use specified without further testing or modification.
The products described in this data sheet are not intended to use for the apparatus which influence human lives due to the failure or
malfunction of the products. Customers are requested to comply with applicable laws and regulations in effect now and hereinafter,
including compliance with export controls on the distribution or dissemination of the products. Customers shall not export, directly or
indirectly, any products without first obtaining required licenses and approvals from appropriate government agencies.
NIPPON PRECISION CIRCUITS INC.
4-3, Fukuzumi 2-chome
Koto-ku, Tokyo 135-8430, Japan
Telephone: +81-3-3642-6661
Facsimile: +81-3-3642-6698
NIPPON PRECISION CIRCUITS INC.
http://www.npc.co.jp/
Email: sales@npc.co.jp
NC0012AE 2000.12
NIPPON PRECISION CIRCUITS—8
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