ALSC ASM5I9773A

ASM5I9773A
June 2005
rev 0.3
2.5V or 3.3V, 200-MHz, 12-Output Zero Delay Buffer
Features
The ASM5I9773A features one LVPECL and two LVCMOS
reference clock inputs and provides 12 outputs partitioned
ƒ
Output frequency range: 8.33MHz to 200MHz
ƒ
Input frequency range: 6.25MHz to 125MHz
ƒ
2.5V or 3.3V operation
ƒ
Split 2.5V / 3.3V outputs
ƒ
±2%( max ) Output duty cycle variation
5:3, 3:2, 4:3, 5:4, 1:1, and 5:6. Each LVCMOS-compatible
ƒ
12 Clock outputs: drive up to 24 clock lines
output can drive 50Ω series- or parallel-terminated
ƒ
One feedback output
transmission lines. For series-terminated transmission
ƒ
Three reference clock inputs: LVPECL or LVCMOS
lines, each output can drive one or two traces, giving the
ƒ
300pS ( max ) output-output skew
device an effective fanout of 1:24.
ƒ
Phase-locked loop (PLL) bypass mode
The PLL is ensured stable, given that the VCO is
ƒ
‘SpreadTrak’
configured to run between 200 MHz to 500 MHz. This
ƒ
Output enable/disable
allows a wide range of output frequencies, from 8 MHz to
ƒ
Pin-compatible with CY29773, MPC9773 and
in three banks of four outputs each. Each bank divides the
VCO output per SEL(A:C) settings (see Table 2. Function
Table (Configuration Controls)). These dividers allow
output-to-input ratios of 8:1, 6:1, 5:1, 4:1, 3:1, 8:3, 5:2, 2:1,
200 MHz. For normal operation, the external feedback
input FB_IN is connected to the feedback output FB_OUT.
MPC973
ƒ
Industrial temperature range: –40°C to +85°C
ƒ
52pin 1.0mm TQFP package
ƒ
RoHS Compliance
The internal VCO is running at multiples of the input
reference clock set by the feedback divider (see Table 1.
Frequency Table).
When PLL_EN is LOW, PLL is bypassed and the reference
clock directly feeds the output dividers. This mode is fully
Functional Description
static and the minimum input clock frequency specification
The ASM5I9773A is a low-voltage high-performance
does not apply.
200-MHz PLL-based zero delay buffer designed for high
speed clock distribution applications.
Alliance Semiconductor
2575, Augustine Drive • Santa Clara, CA • Tel: 408.855.4900 • Fax: 408.855.4999 • www.alsc.com
Notice: The information in this document is subject to change without notice.
ASM5I9773A
June 2005
rev 0. 3
Block Diagram
PECL_CLK
PECL_CLK#
VCO_SEL
PLL_EN
REF_SEL
D
0
TCLK0
0
TCLK1
TCLK_SEL
1
Phase
Detector
VCO
Sync
Frz
Q
QA0
QA1
QA2
1
QA3
LPF
FB_IN
D
Sync
Frz
Q
QB0
QB1
QB2
FB_SEL2
QB3
MR#/OE
Power-On
Reset
/4,/6,/8,/12
D
Sync
Frz
Q
QC0
QC1
/4,/6,/8,/10
SELA(0,1)
2
SELB(0,1)
2
SELC(0,1)
2
/2,/4,/6,/8
D
Q
Sync
Frz
D
Q
Sync
Frz
FB_OUT
D
Q
Sync
Frz
SYNC
0
/4,/6,/8,/10
/2
1
QC2
QC3
Sync Pulse
Data Generator
2
FB_SEL(0,1)
SCLK
12
Output Disable
Circuitry
SDATA
SELB1
SELB0
SELA1
SELA0
QA3
VDDQA
VSS
QA2
QA1
QA0
VDDQA
VCO_SEL
Pin Configuration
VSS
INV_CLK
52 51 50 49 48 47 46 45 44 43 42 41 40
AVSS
1
39
VSS
MR#/OE
2
38
QB0
SCLK
3
37
VDDQB
SDATA
4
36
QB1
FB_SEL2
5
35
VSS
PLL_EN
6
34
QB2
REF_SEL
7
33
VDDQB
ASM5I9773A
TCLK_SEL
8
32
QB3
TCLK0
9
31
FB_IN
TCLK1
10
30
VSS
PECL_CLK
11
29
FB_OUT
PECL_CLK#
12
28
VDD
AVDD
13
27
FB_SEL0
SYNC
FB_SEL1
VSS
QC0
QC1
VDDQC
SELC1
SELC0
QC2
QC3
VDDQC
VSS
INV_CLK
14 15 16 17 18 19 20 21 22 23 24 25 26
2.5V or 3.3V, 200 MHz, 12-Output Zero Delay Buffer
Notice: The information in this document is subject to change without notice.
2 of 16
ASM5I9773A
June 2005
rev 0. 3
Pin Configuration1
Pin
Name
I/O
Type
11
PECL_CLK
I, PU
LVPECL
LVPECL reference clock input.
Description
12
PECL_CLK#
I
LVPECL
LVPECL reference clock input.
9
TCLK0
I, PU
LVCMOS
LVCMOS/LVTTL reference clock input.
10
TCLK1
I, PU
LVCMOS LVCMOS/LVTTL reference clock input.
44,46,48,50
QA(3:0)
O
LVCMOS Clock output bank A.
32,34,36,38
QB(3:0)
O
LVCMOS Clock output bank B.
16,18,21,23
QC(3:0)
O
LVCMOS Clock output bank C.
29
FB_OUT
O
31
FB_IN
I, PU
25
SYNC
O
6
PLL_EN
I, PU
2
MR#/OE
I, PU
8
TCLK_SEL
I, PU
7
REF_SEL
I, PU
52
VCO_SEL
I, PU
14
INV_CLK
I, PU
5,26,27
FB_SEL(2:0)
I, PU
42,43
SELA(1,0)
I, PU
40,41
SELB(1,0)
I, PU
19,20
SELC(1,0)
I, PU
3
SCLK
I, PU
LVCMOS Feedback clock output. Connect to FB_IN for normal operation.
Feedback clock input. Connect to FB_OUT for normal operation. This
LVCMOS input should be at the same voltage rail as input reference clock.
See Table 1. Frequency Table.
Synchronous pulse output. This output is used for system
LVCMOS
synchronization.
PLL enable/bypass input. When Low, PLL is disabled/bypassed and
LVCMOS
the input clock connects to the output dividers.
Master reset and Output enable/disable input.
LVCMOS
See Table 2. Function Table (Configuration Controls).
LVCMOS Clock reference select input.
LVCMOS
See Table 2. Function Table (Configuration Controls).
LVCMOS/LVPECL Reference select input.
LVCMOS
See Table 2. Function Table (Configuration Controls).
VCO Operating frequency select input.
LVCMOS
See Table 2. Function Table (Configuration Controls).
QC(2,3) Phase selection input.
LVCMOS
See Table 2. Function Table (Configuration Controls).
LVCMOS Feedback divider select input. See Table 6.
Frequency select input, Bank A.
LVCMOS
See Table 3. Function Table (Bank A).
Frequency select input, Bank B.
LVCMOS
See Table 4. Function Table (Bank B).
Frequency select input, Bank C.
LVCMOS
See Table 5. Function Table (Bank C).
LVCMOS Serial clock input.
4
SDATA
I, PU
LVCMOS Serial data input.
45,49
VDDQA
Supply
VDD
2.5V or 3.3V Power supply for bank A output clocks2,3.
33,37
VDDQB
Supply
VDD
2.5V or 3.3V Power supply for bank B output clocks2,3.
22,17
VDDQC
Supply
VDD
2.5V or 3.3V Power supply for bank C output clocks2,3.
13
AVDD
Supply
VDD
2.5V or 3.3V Power supply for PLL2,3.
28
VDD
Supply
VDD
2.5V or 3.3V Power supply for core and inputs2,3.
1
15,24,30,35,
39,47,51
AVSS
Supply
Ground
Analog Ground.
VSS
Supply
Ground
Common Ground.
Notes:
1. PU = Internal pull up, PD = Internal pull down.
2. A 0.1µF bypass capacitor should be placed as close as possible to each positive power pin (<0.2”). If these bypass capacitors are not close to the pins their
high frequency filtering characteristics will be cancelled by the lead inductance of the traces.
3. AVDD and VDD pins must be connected to a power supply level that is at least equal or higher than that of VDDQA, VDDQB, and VDDQC power supply pins.
2.5V or 3.3V, 200 MHz, 12-Output Zero Delay Buffer
Notice: The information in this document is subject to change without notice.
3 of 16
ASM5I9773A
June 2005
rev 0. 3
‘SpreadTrak’
Many systems being designed now utilize a technology
When a zero delay buffer is not designed to pass the
called Spread Spectrum Frequency Timing Generation.
Spread Spectrum feature through, the result is a
ASM5I9773A is designed so as not to filter off the Spread
significant amount of tracking skew which may cause
Spectrum feature of the Reference Input, assuming it
problems in the systems requiring synchronization.
exists.
Table 1: Frequency Table
Feedback
Output Divider
VCO
Input Frequency Range
(AVDD = 3.3V)
Input Frequency Range
(AVDD = 2.5V)
÷4
Input Clock * 4
50 MHz to 125 MHz
50 MHz to 95 MHz
÷6
Input Clock * 6
33.3 MHz to 83.3 MHz
33.3 MHz to 63.3 MHz
÷8.
Input Clock * 8
25 MHz to 62.5 MHz
25 MHz to 47.5 MHz
÷10
Input Clock * 10
20 MHz to 50 MHz
20 MHz to 38 MHz
÷12
Input Clock * 12
16.6 MHz to 41.6 MHz
16.6 MHz to 31.6 MHz
÷16
Input Clock * 16
12.5 MHz to 31.25 MHz
12.5 MHz to 23.75 MHz
÷20
Input Clock * 20
10 MHz to 25 MHz
10 MHz to19 MHz
÷24
Input Clock * 24
8.3 MHz to 20.8 MHz
8.3 MHz to 15.8 MHz
÷32
Input Clock * 32
6.25 MHz to 15.625 MHz
6.25 MHz to 11.8 MHz
÷40
Input Clock * 40
5 MHz to 12.5 MHz
5 MHz to 9.5 MHz
Table 2. Function Table (Configuration Controls)
Control
Default
REF_SEL
1
TCLK0, TCLK1
PECL_CLK
TCLK_SEL
1
TCLK0
VCO_SEL
1
VCO÷2 (low input frequency range)
PLL_EN
1
Bypass mode, PLL disabled. The input clock connects to
the output dividers
INV_CLK
1
QC2 and QC3 are in phase with QC0 and QC1
TCLK1
VCO÷1
(high input frequency range)
PLL enabled. The VCO output
connects to the output dividers
QC2 and QC3 are inverted
(180° phase shift) with respect to
QC0 and QC1
1
Outputs disabled (three-state) and reset of the device.
During reset/output disable the PLL feedback loop is open
and the VCO running at its minimum frequency. The device
is reset by the internal power-on reset (POR) circuitry
during power-up.
MR#/OE
0
1
Outputs enabled
2.5V or 3.3V, 200 MHz, 12-Output Zero Delay Buffer
Notice: The information in this document is subject to change without notice.
4 of 16
ASM5I9773A
June 2005
rev 0. 3
Table 5. Function Table (Bank C)
Table 3. Function Table (Bank A)
VCO_SEL
SELA1
SELA0
QA(0:3)
VCO_SEL
SELC1
SELC0
QC(0:3)
0
0
0
0
1
1
1
1
0
0
1
1
0
0
1
1
0
1
0
1
0
1
0
1
÷8
÷12
÷16
÷24
÷4
÷6
÷8
÷12
0
0
0
0
1
1
1
1
0
0
1
1
0
0
1
1
0
1
0
1
0
1
0
1
÷4
÷8
÷12
÷16
÷2
÷4
÷6
÷8
Table 4. Function Table (Bank B)
Table 6. Function Table (FB_OUT)
VCO_SEL
SELB1
SELB0
QB(0:3)
0
0
0
0
1
1
1
1
0
0
1
1
0
0
1
1
0
1
0
1
0
1
0
1
÷8
÷12
÷16
÷20
÷4
÷6
÷8
÷10
VCO_SEL FB_SEL2 FB_SEL1 FB_SEL0 FB_OUT
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
0
0
0
0
1
1
1
1
0
0
0
0
1
1
1
1
0
0
1
1
0
0
1
1
0
0
1
1
0
0
1
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
÷8
÷12
÷16
÷20
÷16
÷24
÷32
÷40
÷4
÷6
÷8
÷10
÷8
÷12
÷16
÷20
Absolute Maximum Conditions
Parameter
VDD
VDD
VIN
VOUT
VTT
LU
RPS
TS
TA
TJ
ØJC
ØJA
ESDH
FIT
Description
DC Supply Voltage
DC Operating Voltage
DC Input Voltage
DC Output Voltage
Output termination Voltage
Latch-up Immunity
Power Supply Ripple
Temperature, Storage
Temperature, Operating Ambient
Temperature, Junction
Dissipation, Junction to Case
Dissipation, Junction to Ambient
ESD Protection (Human Body Model)
Failure in Time
Condition
Functional
Relative to VSS
Relative to VSS
Functional
Ripple Frequency < 100 kHz
Non-functional
Functional
Functional
Functional
Functional
Min
Max
Unit
–0.3
2.375
–0.3
–0.3
5.5
3.465
VDD+ 0.3
VDD+ 0.3
VDD ÷2
150
+150
+85
+150
23
55
V
V
V
V
V
mA
mVp-p
°C
°C
°C
°C/W
°C/W
V
ppm
200
–65
–40
2000
Manufacturing test
10
Note: These are stress ratings only and are not implied for functional use. Exposure to absolute maximum ratings for prolonged periods of time may affect
device reliability.
2.5V or 3.3V, 200 MHz, 12-Output Zero Delay Buffer
Notice: The information in this document is subject to change without notice.
5 of 16
ASM5I9773A
June 2005
rev 0. 3
DC Electrical Specifications (VDD = 2.5V ± 5%, TA = – 40°C to + 85°C)
Parameter
Description
Condition
Min
Typ
Max
Unit
-
0.7
V
V
VIL
Input Voltage, Low
LVCMOS
VIH
Input Voltage, High
LVCMOS
1.7
-
VDD+0.3
VPP
VCMR
VOL
VOH
IIL
LVPECL
LVPECL
IOL= 15 mA
IOH= –15 mA
VIL= VSS
250
1.0
1.8
-
-
IIH
Peak-Peak Input Voltage
4
Common Mode Range
5
Output Voltage, Low
Output Voltage, High 5
Input Current, Low 5
Input Current, High6
-
IDDA
PLL Supply Current
VIL= VDD
AVDD only
-
5
1000
VDD – 0.6
0.6
-100
100
IDDQ
Quiescent Supply Current
All VDD pins except AVDD
-
IDD
Dynamic Supply Current
Outputs loaded @ 100 MHz
-
CIN
Input Pin Capacitance
ZOUT
Output Impedance
mV
V
V
V
µA
µA
10
mA
135
8
mA
-
mA
4
pF
14
18
22
Ω
DC Electrical Specifications (VDD = 3.3V ± 5%, TA = – 40°C to + 85°C)
Min
Typ
Max
Unit
VIL
Parameter
Input Voltage, Low
Description
LVCMOS
Condition
-
-
0.8
V
VIH
Input Voltage, High
LVCMOS
2.0
-
VDD+0.3
V
VPP
VCMR
Peak-Peak Input Voltage
Common Mode Range4
LVPECL
LVPECL
250
1.0
-
1000
VDD– 0.6
mV
V
VOL
Output Voltage, Low5
IOL= 24 mA
-
-
0.55
VOH
Output Voltage, High5
2.4
-
0.30
-
IOL= 12 mA
IOH= –24 mA
V
V
IIL
Input Current, Low
6
VIL= VSS
-
-
-100
µA
IIH
Input Current, High6
VIL= VDD
-
-
100
µA
IDDA
PLL Supply Current
AVDD only
-
5
10
mA
IDDQ
Quiescent Supply Current
All VDD pins except AVDD
-
-
8
mA
IDD
Dynamic Supply Current
Outputs loaded @ 100 MHz
CIN
Input Pin Capacitance
ZOUT
Output Impedance
-
225
-
mA
-
4
-
pF
12
15
18
Ω
Notes:
4. VCMR (DC) is the crossing point of the differential input signal. Normal operation is obtained when the crossing point is within the VCMR range and the input
swing is within the VPP (DC) specification.
5. Driving one 50 Ω parallel terminated transmission line to a termination voltage of VTT. Alternatively, each output drives up to two 50 Ω series terminated
transmission lines.
6. Inputs have pull-up or pull-down resistors that affect the input current.
2.5V or 3.3V, 200 MHz, 12-Output Zero Delay Buffer
Notice: The information in this document is subject to change without notice.
6 of 16
ASM5I9773A
June 2005
rev 0. 3
AC Electrical Specifications (VDD = 2.5V ±5%, TA = –40°C to +85°C)7
Parameter
fVCO
fin
frefDC
Description
Condition
VCO Frequency
Input Frequency
Min
Typ
Max
Unit
200
-
380
MHz
÷4 Feedback
50
-
95
÷6 Feedback
33.3
-
63.3
÷8 Feedback
25
-
47.5
÷10 Feedback
20
-
38
÷12 Feedback
16.6
-
31.6
÷16 Feedback
12.5
-
23.75
÷20 Feedback
10
-
19
÷24 Feedback
8.3
-
15.8
÷32 Feedback
6.25
-
11.8
MHz
÷40 Feedback
5
-
9.5
Bypass mode (PLL_EN = 0)
0
-
200
25
-
75
%
Input Duty Cycle
VPP
Peak-Peak Input Voltage
LVPECL
500
-
1000
mV
VCMR
Common Mode Range8
LVPECL
1.2
-
VDD– 0.6
V
tr, tf
TCLK Input Rise/FallTime
nS
fMAX
Maximum Output Frequency
-
-
1.0
÷2 Output
0.7V to 1.7V
100
-
190
÷4 Output
50
-
95
÷6 Output
33.3
-
63.3
÷8 Output
25
-
47.5
÷10 Output
20
-
38
÷12 Output
16.6
-
31.6
÷16 Output
12.5
-
23.75
÷20 Output
10
-
19
÷24 Output
8.3
-
15.8
-
-
20
fMAX < 100 MHz
47.5
-
52.5
fMAX > 100 MHz
45
-
55
fSCLK
Serial Clock Frequency
DC
Output Duty Cycle
tr, tf
Output Rise/Fall times
0.6V to 1.8V
0.1
-
1.0
Propagation Delay
(static phase offset)
TCLK to FB_IN
-125
-
125
PCLK to FB_IN
-125
-
125
t(φ)
MHz
MHz
%
nS
pS
Notes:
7. AC characteristics apply for parallel output termination of 50Ω to VTT. Outputs are at same supply voltage unless otherwise stated. Parameters are guaranteed
by characterization and are not 100% tested.
8. VCMR (AC) is the crosspoint of the differential input signal. Normal AC operation is obtained when the crosspoint is within the VCMR range and the input swing
lies within the VPP (AC) specification. Violation of VCMR or VPP impacts static phase offset t(φ).
2.5V or 3.3V, 200 MHz, 12-Output Zero Delay Buffer
Notice: The information in this document is subject to change without notice.
7 of 16
ASM5I9773A
June 2005
rev 0. 3
AC Electrical Specifications (VDD = 2.5V ± 5%, TA = – 40°C to + 85°C)9
Parameter
Description
Min
Typ
Max
Skew within Bank A
Condition
-
-
75
Skew within Bank B
-
-
100
Unit
tsk(O)
Output-to-Output Skew
-
-
150
tsk(B)
Bank-to-Bank Skew
-
-
400
pS
tPLZ, HZ
Output Disable Time
-
-
10
nS
tPZL, ZH
Output Enable Time
nS
Skew within Bank C
BW
tJIT(CC)
PLL Closed Loop Bandwidth (-3dB)
Cycle-to-Cycle Jitter
-
-
10
÷4 Feedback
-
1.3 - 2.0
-
÷6 Feedback
-
0.7 - 1.3
-
÷8 Feedback
-
0.9 - 1.3
-
÷10 Feedback
-
0.6 - 1.1
-
÷12 Feedback
-
0.6 - 0.9
-
÷16 Feedback
-
0.4 - 0.6
-
÷20 Feedback
-
0.6 - 0.9
-
Same frequency
(125 MHz) RMS (1σ)
-
7
30
Same frequency
-
-
150
Multiple frequencies
-
-
435
Same frequency
(125 MHz) RMS (1σ)
-
6
30
Same frequency
-
45
75
pS
MHz
pS
tJIT(PER)
Period Jitter
-
-
235
tJIT(φ)
I/O Phase Jitter
-
-
150
pS
tLOCK
Maximum PLL Lock Time
-
-
1
mS
Multiple frequencies
pS
Notes:
9. AC characteristics apply for parallel output termination of 50Ω to VTT. Outputs are at same supply voltage unless otherwise stated. Parameters are guaranteed
by characterization and are not 100% tested.
2.5V or 3.3V, 200 MHz, 12-Output Zero Delay Buffer
Notice: The information in this document is subject to change without notice.
8 of 16
ASM5I9773A
June 2005
rev 0. 3
AC Electrical Specifications (VDD = 3.3V ± 5%, TA = – 40°C to + 85°C)10
Parameter
fVCO
fin
frefDC
Description
Condition
Min
Typ
Max
Unit
200
-
500
MHz
÷4 Feedback
50
-
125
÷6 Feedback
33.3
-
83.3
÷8 Feedback
25
-
62.5
÷10 Feedback
20
-
50
÷12 Feedback
16.6
-
41.6
÷16 Feedback
12.5
-
31.25
÷20 Feedback
10
-
25
VCO Frequency
Input Frequency
MHz
÷24 Feedback
8.3
-
20.8
÷32 Feedback
6.25
-
15.625
÷40 Feedback
Bypass mode
(PLL_EN = 0)
5
-
12.5
0
-
200
25
-
75
%
Input Duty Cycle
VPP
Peak-Peak Input Voltage
LVPECL
500
-
1000
mV
VCMR
Common Mode Range8
LVPECL
1.2
-
VDD–0.9
V
tr, tf
TCLK Input Rise/FallTime
0.8V to 2.0V
-
-
1.0
nS
Notes:
10. AC characteristics apply for parallel output termination of 50Ω to VTT. Outputs are at same supply voltage unless otherwise stated. Parameters are
guaranteed by characterization and are not 100% tested.
2.5V or 3.3V, 200 MHz, 12-Output Zero Delay Buffer
Notice: The information in this document is subject to change without notice.
9 of 16
ASM5I9773A
June 2005
rev 0. 3
AC Electrical Specifications (VDD = 3.3V ±5%, TA = –40°C to +85°C)11
Parameter
Description
Condition
Min
Typ
Max
100
-
200
÷4 Output
50
-
125
÷6 Output
33.3
-
83.3
÷8 Output
25
-
62.5
÷10 Output
20
-
50
÷12 Output
16.6
-
41.6
÷16 Output
12.5
-
31.25
÷2 Output
fMAX
Maximum Output Frequency
fSCLK
Serial Clock Frequency
DC
Output Duty Cycle
tr, tf
Output Rise/Fall times
t(φ)
Propagation Delay
(static phase offset)
÷20 Output
10
-
25
÷24 Output
8.3
-
20.8
-
-
20
Unit
MHz
MHz
MHz
fMAX < 100 MHz
48
-
52
fMAX > 100 MHz
45
-
55
0.55V to 2.4V
TCLK to FB_IN,
same VDD
PCLK to FB_IN,
same VDD
Skew within Bank A
0.1
-
1.0
-125
-
125
-125
-
125
-
-
75
-
-
100
%
nS
pS
tsk(O)
Output-to-Output Skew
-
-
150
tsk(B)
Bank-to-Bank Skew
-
-
325
pS
tPLZ, HZ
Output Disable Time
-
-
8
nS
tPZL, ZH
Output Enable Time
-
-
8
nS
÷4 Feedback
-
1.3–2.0
-
÷6 Feedback
-
0.7–1.3
-
÷8 Feedback
-
0.9–1.3
-
÷10 Feedback
-
0.6–1.1
-
÷12 Feedback
-
0.6–0.9
-
÷16 Feedback
-
0.4–0.6
-
÷20 Feedback
-
0.6–0.9
-
Same frequency
(125 MHz) RMS (1σ)
-
7
30
Same frequency
-
-
100
Multiple frequencies
-
-
375
Same frequency
(125 MHz) RMS (1σ)
-
6
30
Same frequency
-
45
75
Skew within Bank B
Skew within Bank C
BW
tJIT(CC)
PLL Closed Loop Bandwidth (–3 dB)
Cycle-to-Cycle Jitter
tJIT(PER)
Period Jitter
tJIT(φ)
tLOCK
I/O Phase Jitter
Maximum PLL Lock Time
pS
MHz
pS
pS
Multiple frequencies
-
-
225
I/O same VDD
-
-
150
pS
-
-
1
mS
Notes:
11. AC characteristics apply for parallel output termination of 50Ω to VTT. Outputs are at same supply voltage unless otherwise stated. Parameters are
guaranteed by characterization and are not 100% tested.
2.5V or 3.3V, 200 MHz, 12-Output Zero Delay Buffer
Notice: The information in this document is subject to change without notice.
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rev 0. 3
SYNC Output
In situations where output frequency relationships are not
of the pulse depend on the higher of the QA and QC
integer multiples of each other the SYNC output provides
output
a signal for system synchronization. The ASM5I9773A
illustrates various waveforms for the SYNC output. Note
monitors the relationship between the QA and the QC
that the SYNC output is defined for all possible
output clocks. It provides a low going pulse, one period in
combinations of the QA and QC outputs even though
duration, one period prior to the coincident rising edges of
under some relationships the lower frequency clock could
the QA and QC outputs. The duration and the placement
be used as a synchronizing signal.
frequencies.
The
2.5V or 3.3V, 200 MHz, 12-Output Zero Delay Buffer
Notice: The information in this document is subject to change without notice.
following
timing
diagram
11 of 16
ASM5I9773A
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rev 0. 3
Power Management
data. An output is frozen when a logic ‘0’ is programmed
The individual output enable/freeze control of the
and enabled when a logic ‘1’ is written. The enabling and
ASM5I9773A allows the user to implement unique power
freezing of individual outputs is done in such a manner as
management schemes into the design. The outputs are
to eliminate the possibility of partial “runt” clocks. The
stopped in the logic ‘0’ state when the freeze control bits
serial input register is programmed through the SDATA
are activated. The serial input register contains one
input by writing a logic ‘0’ start bit followed by 12 NRZ
programmable freeze enable bit for 12 of the 14 output
freeze enable bits. The period of each SDATA bit equals
clocks. The QC0 and FB_OUT outputs can not be frozen
the period of the free running SCLK signal. The SDATA is
with the serial port, this avoids any potential lock up
sampled on the rising edge of SCLK.
situation, should an error occur in the loading of the serial
2.5V or 3.3V, 200 MHz, 12-Output Zero Delay Buffer
Notice: The information in this document is subject to change without notice.
12 of 16
ASM5I9773A
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rev 0. 3
2.5V or 3.3V, 200 MHz, 12-Output Zero Delay Buffer
Notice: The information in this document is subject to change without notice.
13 of 16
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rev 0. 3
Package Information
52-lead TQFP Package
SECTION A-A
Dimensions
Symbol
Inches
Min
Max
Millimeters
Min
Max
A
….
0.0472
…
1.2
A1
0.0020
0.0059
0.05
0.15
A2
0.0374
0.0413
0.95
1.05
D
0.4646
0.4803
11.8
12.2
D1
0.3898
0.3976
9.9
10.1
E
0.4646
0.4803
11.8
12.2
E1
0.3898
0.3976
9.9
10.1
L
0.0177
0.0295
0.45
0.75
L1
0.03937 REF
1.00 REF
T
0.0035
0.0079
0.09
0.2
T1
0.0038
0.0062
0.097
0.157
b
0.0102
0.0150
0.26
0.38
b1
0.0106
0.0130
0.27
0.33
R0
0.0031
0.0079
0.08
0.2
a
0°
7°
0°
7°
e
0.0256 BASE
0.65 BASE
2.5V or 3.3V, 200 MHz, 12-Output Zero Delay Buffer
Notice: The information in this document is subject to change without notice.
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rev 0. 3
Ordering Information
Part Number
Marking
Package Type
Operating Range
ASM5I9773A-52-ET
ASM5I9773A
52-pin TQFP, Tray
Industrial
ASM5I9773A-52-ER
ASM5I9773A
52-pin TQFP – Tape and Reel
Industrial
ASM5I9773AG-52-ET
ASM5I9773AG
52-pin TQFP, Tray, Green
Industrial
ASM5I9773AG-52-ER
ASM5I9773AG
52-pin TQFP – Tape and Reel, Green
Industrial
Device Ordering Information
A S M 5 I 9 7 7 3 A G - 5 2 - E T
R = Tape & reel, T = Tube or Tray
O = SOT
S = SOIC
T = TSSOP
A = SSOP
V = TVSOP
B = BGA
Q = QFN
U = MSOP
E = TQFP
L = LQFP
U = MSOP
P = PDIP
D = QSOP
X = SC-70
DEVICE PIN COUNT
F = LEAD FREE AND RoHS COMPLIANT PART
G = GREEN PACKAGE
PART NUMBER
X= Automotive
I= Industrial
P or n/c = Commercial
(-40C to +125C) (-40C to +85C)
(0C to +70C)
1 = Reserved
2 = Non PLL based
3 = EMI Reduction
4 = DDR support products
5 = STD Zero Delay Buffer
6 = Power Management
7 = Power Management
8 = Power Management
9 = Hi Performance
0 = Reserved
ALLIANCE SEMICONDUCTOR MIXED SIGNAL PRODUCT
Licensed under US patent #5,488,627, #6,646,463 and #5,631,920.
2.5V or 3.3V, 200 MHz, 12-Output Zero Delay Buffer
Notice: The information in this document is subject to change without notice.
15 of 16
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rev 0. 3
Alliance Semiconductor Corporation
2575, Augustine Drive,
Santa Clara, CA 95054
Tel# 408-855-4900
Fax: 408-855-4999
www.alsc.com
Copyright © Alliance Semiconductor
All Rights Reserved
Part Number: ASM5I9773A
Document Version: 0.3
Note: This product utilizes US Patent # 6,646,463 Impedance Emulator Patent issued to Alliance Semiconductor, dated 11-11-2003
© Copyright 2003 Alliance Semiconductor Corporation. All rights reserved. Our three-point logo, our name and Intelliwatt are
trademarks or registered trademarks of Alliance. All other brand and product names may be the trademarks of their
respective companies. Alliance reserves the right to make changes to this document and its products at any time without
notice. Alliance assumes no responsibility for any errors that may appear in this document. The data contained herein
represents Alliance's best data and/or estimates at the time of issuance. Alliance reserves the right to change or correct this
data at any time, without notice. If the product described herein is under development, significant changes to these
specifications are possible. The information in this product data sheet is intended to be general descriptive information for
potential customers and users, and is not intended to operate as, or provide, any guarantee or warrantee to any user or
customer. Alliance does not assume any responsibility or liability arising out of the application or use of any product
described herein, and disclaims any express or implied warranties related to the sale and/or use of Alliance products
including liability or warranties related to fitness for a particular purpose, merchantability, or infringement of any intellectual
property rights, except as express agreed to in Alliance's Terms and Conditions of Sale (which are available from Alliance).
All sales of Alliance products are made exclusively according to Alliance's Terms and Conditions of Sale. The purchase of
products from Alliance does not convey a license under any patent rights, copyrights; mask works rights, trademarks, or any
other intellectual property rights of Alliance or third parties. Alliance does not authorize its products for use as critical
components in life-supporting systems where a malfunction or failure may reasonably be expected to result in significant
injury to the user, and the inclusion of Alliance products in such life-supporting systems implies that the manufacturer
assumes all risk of such use and agrees to indemnify Alliance against all claims arising from such use.
2.5V or 3.3V, 200 MHz, 12-Output Zero Delay Buffer
Notice: The information in this document is subject to change without notice.
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