IDT QS5919T

QS5919T
LOW SKEW TTL PLL CLOCK DRIVER WITH INTEGRATED LOOP FILTER
INDUSTRIAL TEMPERATURE RANGE
LOW SKEW TTL PLL
CLOCK DRIVER WITH
INTEGRATED LOOP FILTER
QS5919T
FEATURES:
DESCRIPTION
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The QS5919T Clock Driver uses an internal phase locked loop (PLL)
to lock low skew outputs to one of two reference clock inputs. Eight outputs
are available: 2xQ, Q 0-Q4, Q5, Q/2. Careful layout and design ensure <
350ps skew between the Q0-Q4, and Q/2 outputs. The QS5919T includes
an internal RC filter which provides excellent jitter characteristics and
eliminates the need for external components. Various combinations of
feedback and a divide-by-2 in the VCO path allow applications to be
customized for linear VCO operation over a wide range of input SYNC
frequencies. The PLL can also be disabled by the PLL_EN signal to allow
low frequency or DC testing. The LOCK output asserts to indicate when
phase lock has been achieved. The QS5919T is designed for use in highperformance workstations, multi-board computers, networking hardware,
and mainframe systems. Several can be used in parallel or scattered
throughout a system for guaranteed low skew, system-wide clock distribution networks.
5V operation
Low noise TTL level outputs
< 350ps output skew, Q0–Q4
2xQ output, Q outputs, Q output, Q/2 output
Outputs 3-state and reset while OE/RST low
PLL disable feature for low frequency testing
Internal loop filter RC network
Functional equivalent to Motorola MC88915
Positive or negative edge synchronization (PE)
Balanced drive outputs ±24mA
160MHz maximum frequency (2xQ output)
Available in QSOP and PLCC packages
For more information on PLL clock driver products, see Application Note
AN-227.
FUNCTIONAL BLOCK DIAGRAM
REF_SEL
LO CK
SYNC 0
0
SYNC 1
1
O E/RST
R
D
R
D
R
FEE DBACK
PE
PH A S E
LO O P
D ETEC TO R
FIL TER
D
R
D
D
FREQ _SEL
0
1
1
VCO
R
PLL_E N
R
/2
D
R
D
Q
Q
Q
Q
Q
Q
Q
Q
Q /2
Q5
Q4
Q3
Q2
Q1
Q0
INDUSTRIAL TEMPERATURE RANGE
0
2xQ
SEPTEMBER 2000
1
c
2000
Integrated Device Technology, Inc.
DSC-5815/-
QS5919T
LOW SKEW TTL PLL CLOCK DRIVER WITH INTEGRATED LOOP FILTER
INDUSTRIAL TEMPERATURE RANGE
Q4
Q5
2
27
V DD
V DD
Q5
GND
V DD
3
26
2xQ
4
3
2
1
OE/RST
4
25
Q/2
FEEDBACK
5
24
GND
REF_SEL
6
23
Q3
SYNC 0
7
22
V DD
8
21
Q2
9
20
GND
AGND
10
19
LOCK
SYNC 1
11
18
PLL_EN
FREQ_SEL
12
17
GND
GND
13
16
Q1
Q0
14
15
V DD
ABSOLUTE MAXIMUM RATINGS
(1)
Symbol
VDD, AVDD
Rating
Supply Voltage to Ground
Max.
–0.5 to +7
Unit
V
VIN
DC Input Voltage VIN
–0.5 to +7
V
TSTG
Maximum Power
QSOP
Dissipation (TA = 85°C)
PLCC
Storage Temperature Range
655
mW
770
mW
–65°C to +150°C °C
NOTE:
1. Stresses greater than those listed under ABSOLUTE MAXIMUM
RATINGS may cause permanent damage to the device. This is a
stress rating only and functional operation of the device at these or
any other conditions above those indicated in the operational sections
of this specification is not implied. Exposure to absolute maximum
rating conditions for extended periods may affect reliability.
CAPACITANCE (TA = 25° C, f = 1MHz, VIN = 0V)
QSOP
Parameter
CIN
Typ.
3
PLCC
Max.
4
Typ.
4
Max.
6
Unit
pF
2
26
25
Q/2
REF_SEL
6
24
GND
SYNC 0
7
23
Q3
AV D D
8
22
V DD
PE
9
21
Q2
AGND
10
20
GND
SYNC 1
11
19
LOCK
16
17
18
PLL_EN
15
GND
14
Q1
13
V DD
12
Q0
J28-1
PLCC
TOP VIEW
QSOP
TOP VIEW
27
5
GND
PE
28
FEEDBACK
FREQ_SEL
AV DD
SO28-9
2xQ
28
V DD
1
Q4
GND
OE/RST
PIN CONFIGURATION
QS5919T
LOW SKEW TTL PLL CLOCK DRIVER WITH INTEGRATED LOOP FILTER
INDUSTRIAL TEMPERATURE RANGE
PIN DESCRIPTION
Pin Name
I/O
Description
SYNC0
I
Reference clock input
SYNC1
I
Reference clock input
REF_SEL
I
Reference clock select. When 1, selects SYNC 1. When 0, selects SYNC0.
FREQ_SEL
I
VCO frequency select. For choosing optimal VCO operating frequency depending on input frequency.
FEEDBACK
I
Q0 -Q4
O
PLL feedback input which is connected to a user selected output pin. External feedback provides flexibility for different output
frequency relationships. See the Frequency Selection Table for more information.
Clock outputs
Q5
O
Clock output. Matched in frequency, but inverted with respect to Q.
2xQ
O
Clock output. Matched in phase, but frequency is double the Q frequency.
Q/2
O
Clock output. Matched in phase, but frequency is half the Q frequency.
LOCK
O
OE/RST
I
PLL_EN
I
PLL lock indication signal. 1 indicates positive lock. 0 indicates that the PLL is not locked and outputs may not be synchronized to
the inputs.
Output enable/asynchronous reset. Resets all output registers. When 0, all outputs are held in a tri-stated condition. When 1,
outputs are enabled.
PLL enable. Enables and disables the PLL. Useful for testing purposes.
PE
I
VDD
—
When PE is LOW, outputs are synchronized with the positive edge of SYNC. When HIGH, outputs are synchronized with the
negative edge of SYNC.
Power supply for output buffers.
AVDD
—
Power supply for phase lock loop and other internal circuitries.
GND
—
Ground supply for output buffers.
AGND
—
Ground supply for phase lock loop and other internal circuitries.
OUTPUT FREQUENCY SPECIFICATIONS
Industrial: TA = –40°C to +85°C, AVDD / VDD = 5.0V ± 10%
Symbol
Description
– 55
– 70
– 100
– 133
– 160
Units
FMAX_2XQ
Max Frequency, 2xQ
55
70
100
133
160
MHz
FMAX_Q
Max Frequency, Q0 - Q4, Q5
FMAX_Q/2
Max Frequency, Q/2
27.5
35
50
66.5
80
MHz
13.75
17.5
25
33.25
40
MHz
FMIN_2XQ
Min Frequency, 2xQ
20
20
20
20
20
MHz
FMIN_Q
Min Frequency, Q0 - Q4, Q5
10
10
10
10
10
MHz
FMIN_Q/2
Min Frequency, Q/2
5
5
5
5
5
MHz
3
QS5919T
LOW SKEW TTL PLL CLOCK DRIVER WITH INTEGRATED LOOP FILTER
INDUSTRIAL TEMPERATURE RANGE
FREQUENCY SELECTION TABLE
FREQ_SEL
SYNC (MHz)
(allowable range) (1)
Min.
Max
Output Used for
Feedback
Q/2
Output Frequency Relationships (2)
Q5
Q0 - Q4
2XQ
HIGH
Q/2
FMIN_Q/2
FMAX _Q/2
SYNC
– SYNC X 2
SYNC X 2
SYNC X 4
HIGH
Q0 -Q4
FMIN_Q
FMAX _Q
SYNC / 2
– SYNC
SYNC
SYNC X 2
HIGH
Q5
FMIN_Q
FMAX _Q
– SYNC / 2
SYNC
– SYNC
– SYNC X 2
HIGH
2xQ
FMIN_2XQ
FMAX _2XQ
SYNC / 4
– SYNC / 2
SYNC / 2
SYNC
LOW
Q/2
FMIN_Q/2 /2
FMAX _Q/2 /2
SYNC
– SYNC X 2
SYNC X 2
SYNC X 4
LOW
Q0 -Q4
FMIN_Q /2
FMAX _Q /2
SYNC / 2
– SYNC
SYNC
SYNC X 2
LOW
Q5
FMIN_Q /2
FMAX _Q /2
– SYNC / 2
SYNC
– SYNC
– SYNC X 2
LOW
2xQ
FMIN_2XQ /2
FMAX _2XQ /2
SYNC / 4
– SYNC / 2
SYNC / 2
SYNC
NOTES:
1. Operation in the specified SYNC frequency range guarantees that the VCO will operate in its optimal range of 20MHz to FMAX_2XQ. Operation with
Sync inputs outside specified frequency ranges may result in out-of-lock outputs. FREQ_SEL only affects VCO frequency and does not affect
output frequencies.
2. The lock output pin (LOCK) may not indicate reliably for VCO frequencies below 30MHz.
DC ELECTRICAL CHARACTERISTICS OVER OPERATING RANGE
Following Conditions Apply Unless Otherwise Specified:
Industrial: TA = –40°C to +85°C, AVDD / VDD = 5.0V ± 10%
Symbol
VIH
Parameter
Input HIGH Voltage
Conditions
Guaranteed Logic HIGH Level
Min.
2
Typ.
—
Max.
—
Unit
V
VIL
Input LOW Voltage
Guaranteed Logic LOW Level
—
—
0.8
V
VOH
Output HIGH Voltage
VDD = Min., IOH = −24mA
2.4
—
—
V
VDD = Min., IOH = −100µA
3
—
—
V
VDD = Min., IOL = 24mA
—
—
0.45
V
VDD = Min., IOL = 100µA
—
—
0.2
V
—
VOL
Output LOW Voltage
VH
Input Hysteresis
—
100
—
mV
IOZ
Output Leakage Current
VOUT = VDD or GND, VDD = Max.
—
—
5
µA
IIN
Input Leakage Current
VIN = AVDD or GND, AVDD = Max.
—
—
5
µA
IPD
Input Pull-Down Current (PE)
AVDD = Max., VIN = AVDD
—
—
100
µA
POWER SUPPLY CHARACTERISTICS
Symbol
IDDQ
Parameter
Quiescent Power Supply Current
∆IDD
Power Supply Current per Input HIGH
IDDD
Dynamic Power Supply Current
(1)
Test Conditions
VDD = Max., OE/RST = LOW,
SYNC = LOW, All outputs unloaded
VDD = Max., VIN = 3.4V
Typ.
Max.
1.5
Unit
mA
0.5
1.5
mA
VDD = Max., CL = 0pF
0.2
0.4
mA/MHz
NOTE:
1. Relative to the frequency of Q outputs.
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QS5919T
LOW SKEW TTL PLL CLOCK DRIVER WITH INTEGRATED LOOP FILTER
INDUSTRIAL TEMPERATURE RANGE
INPUT TIMING REQUIREMENTS
Symbol
tR, tF
FI
tPWC
DH
Description (1)
Maximum input rise and fall times, 0.8V to 2V
Min.
—
Max.
3
Unit
ns
Input Clock Frequency, SYNC0, SYNC1 (1)
2.5
FMAX _2XQ
MHz
Input clock pulse, HIGH or LOW (2)
2
—
ns
Input duty cycle (2)
25
75
%
NOTES:
1. See Output Frequency and Frequency Selection tables for more detail on allowable SYNC input frequencies for different speed grades with
different FEEDBACK and FREQ_SEL combinations.
2. Where pulse witdh implied by DH is less than tWPC limit, tWPC limit applies
SWITCHING CHARACTERISTICS OVER OPERATING RANGE
Symbol
tSKR
Parameter (1)
Output Skew Between Rising Edges, Q0-Q4 and Q/2 (2)
Min.
—
Max.
350
Unit
ps
tSKF
Output Skew Between Falling Edges, Q0-Q4 and Q/2 (2)
—
350
ps
(2,5)
—
500
ps
tSKALL
Output Skew, All Outputs
tPW
Pulse Width, 2xQ output, >40MHz
TCY/2 − 0.4
TCY/2 + 0.4
ns
tPW
Pulse Width, Q0-Q4, Q5, Q/2 outputs, 80MHz
TCY/2 − 0.4
TCY/2 + 0.4
ns
tJ
Cycle-to-Cycle Jitter (4)
− 0.15
0.15
ns
− 500
0
ps
(6)
tPD
SYNC Input to Feedback Delay
tLOCK
SYNC to Phase Lock
—
10
ms
tPZH
tPZL
tPHZ
tPLZ
tR, tF
Output Enable Time, OE/RST LOW to HIGH (3)
0
7
ns
Output Enable Time, OE/RST HIGH to LOW (3)
0
6
ns
0.3
1.5
ns
Output Rise/Fall Times, 0.8V ∼ 2V
NOTES:
1. See Test Loads and Waveforms for test load and termination. Test circuit 1 is used for output enable/disable parameters. Test circuit 2 is used for all
other timing parameters.
2. Skew specifications apply under identical environments (loading, temperature, VCC, device speed grade).
3. Measured in open loop mode PLL_EN = 0.
4. Jitter is characterized with Q output at 20MHz. See FREQUENCY SELECTION TABLE for information on proper FREQ_SEL level for specified input
frequencies.
5. Skew measured at selected synchronization edge.
6. tPD measured at device inputs at 1.5V, Q output at 80MHz.
5
QS5919T
LOW SKEW TTL PLL CLOCK DRIVER WITH INTEGRATED LOOP FILTER
INDUSTRIAL TEMPERATURE RANGE
AC TEST LOADS AND WAVEFORMS
VDD
300 Ω
160 Ω
7.0V
O UTPUT
O UTPUT
300 Ω
30pF
20pF
68 Ω
TEST CIRCUIT 1
TEST CIRCUIT 2
1.0ns
1.0ns
tR
tF
3.0V
2.0V
2.0V
V th = 1.5V
1.5V
0.8V
0.8V
0V
0V
tP W
TTL INPUT TEST WAVEFORM
TTL OUTPUT WAVEFORM
EN A BLE
DISABLE
3V
1.5V
CO NTRO L
0V
IN PU T
t PLZ
t PZ L
O UTPUT
3.5V
NO R M ALLY
LO W
SW ITCH
CLO SED
1.5V
0.3V
VO L
0.3V
VOH
tP H Z
tP Z H
SW ITCH
O UTPUT
O PEN
1.5V
NO R M ALLY
0V
HIGH
ENABLE AND DISABLE TIMES
TEST CIRCUIT 1 is used for output enable/disable parameters.
TEST CIRCUIT 2 is used for all other timing parameters.
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QS5919T
LOW SKEW TTL PLL CLOCK DRIVER WITH INTEGRATED LOOP FILTER
INDUSTRIAL TEMPERATURE RANGE
AC TIMING DIAGRAM
S YN C
t PD
FEEDBACK
tJ
Q
t SK F
Q 0 -Q 4
tS KR
Q /2
2xQ
t SKA LL
Q5
NOTES:
1. AC Timing Diagram applies to Q output connected to FEEDBACK and PE = GND. For PE = VDD, the negative edge of FEEDBACK aligns with the
negative edge of SYNC input, and the negative edges of the multiplied and divided outputs align with the negative edge of SYNC.
2. All parameters are measured at 1.5V.
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QS5919T
LOW SKEW TTL PLL CLOCK DRIVER WITH INTEGRATED LOOP FILTER
INDUSTRIAL TEMPERATURE RANGE
PLL OPERATION
of the PLL circuit is to provide an effective zero propagation delay between
the output and input signals. In fact, adding delay circuits in the feedback
path, ‘propagation delay’ can even be negative! A simplified schematic
of the QS5919T PLL circuit is shown below.
The Phase Locked Loop (PLL) circuit included in the QS5919T
provides for replication of incoming SYNC clock signals. Any manipulation
of that signal, such as frequency multiplying or inversion is performed by
digital logic following the PLL (see the block diagram). The key advantage
SIMPLIFIED DIAGRAM OF QS5919T FEEDBACK
Q
2xQ
INPU T
VCO
/2
Q /2
Q
/2
PHASE
DETECTOR
The phase difference between the output and the input frequencies
feeds the VCO which drives the outputs. Whichever output is fed back, it
will stabilize at the same frequency as the input. Hence, this is a true
negative feedback closed loop system. In most applications, the output will
optimally have zero phase shift with respect to the input. In fact, the internal
loop filter on the QS5919T typically provides within 150ps of phase shift
between input and output.
If the user wishes to vary the phase difference (typically to compensate
for backplane delays), this is most easily accomplished by adding delay
circuits to the feedback path. The respective output used for feedback will
be advanced by the amount of delay in the feedback path. All other outputs
will retain their proper relationships to that output.
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QS5919T
LOW SKEW TTL PLL CLOCK DRIVER WITH INTEGRATED LOOP FILTER
INDUSTRIAL TEMPERATURE RANGE
ORDERING INFORMATION
QS
XXXX
XX
Device Type
Speed
X
Package
Q
J
Quarter Size Outline Package (SO28-9)
Plastic Leaded Chip Carrier (J28-1)
55
70
100
133
160
55MHz Max. Frequency
70MHz Max. Frequency
100MHz Max. Frequency
133MHz Max. Frequency
160MHz Max. Frequency
5919T
CORPORATE HEADQUARTERS
2975 Stender Way
Santa Clara, CA 95054
Low Skew TTL PLL Clock Driver with Integrated Loop Filter
for SALES:
800-345-7015 or 408-727-6116
fax: 408-492-8674
www.idt.com*
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