IDTCSP5V991
3.3V PROGRAMMABLE SKEW PLL CLOCK DRIVER TURBOCLOCK
COMMERCIAL AND INDUSTRIAL TEMPERATURE RANGES
3.3V PROGRAMMABLE
SKEW PLL CLOCK DRIVER
TURBOCLOCK™
FEATURES/BENEFITS
•
•
•
•
•
•
•
•
REF is 5V tolerant
4 pairs of programmable skew outputs
Low skew: 200ps same pair, 250ps all outputs
Selectable positive or negative edge synchronization:
Excellent for DSP applications
Synchronous output enable
Output frequency: 6.25Hz to 85MHz
2x, 4x, 1/2, and 1/4 outputs
3 skew grades:
CSP5V991-2: t
SKEW0
<250ps
CSPV991-5: t
SKEW0
<500ps
CSPV991-7: t
SKEW0
<750ps
3-level inputs for skew and PLL range control
PLL bypass for DC testing
External feedback, internal loop filter
12mA balanced drive outputs
Low Jitter: <200ps peak-to-peak
Industrial temperature range
Available in 32-pin PLCC Package
IDTCSP5V991
DESCRIPTION
The CSP5V991 is a high fanout 3.3V PLL based clock driver intended
for high performance computing and data-communications applications. A
key feature of the programmable skew is the ability of outputs to lead or lag
the REF input signal. The CSP5V991 has eight programmable skew
outputs in four banks of 2. Skew is controlled by 3-level input signals that
may be hard-wired to appropriate HIGH-MID-LOW levels.
When the GND/sOE pin is held low, all the outputs are synchronously
enabled. However, if GND/sOE is held high, all the outputs except 3Q0 and
3Q1 are synchronously disabled.
Furthermore, when the V
CCQ
/PE is held high, all the outputs are
synchronized with the positive edge of the REF clock input. When V
CCQ
/
PE is held low, all the outputs are synchronized with the negative edge of
REF. Both devices have LVTTL outputs with 12mA balanced drive outputs.
•
•
•
•
•
•
•
FUNCTIONAL BLOCK DIAGRAM
G ND/sOE
Skew
Select
3
3
1F1:0
V
CCQ
/PE
Skew
Select
REF
PLL
FB
3
FS
Skew
Select
3
3
3F1:0
3
3
2F1:0
1Q
0
1Q
1
2Q
0
2Q
1
3Q
0
3Q
1
Skew
Select
3
3
4F1:0
4Q
0
4Q
1
COMMERCIAL/INDUSTRIAL TEMPERATURE RANGES
1
c
2000
Integrated Device Technology, Inc.
FEBRURARY 2000
DSC-5786/-
IDTCSP5V991
3.3V PROGRAMMABLE SKEW PLL CLOCK DRIVER TURBOCLOCK
COMMERCIAL AND INDUSTRIAL TEMPERATURE RANGES
PIN CONFIGURATION
3F
0
TEST
V
C CQ
GND
REF
2F
1
FS
ABSOLUTE MAXIMUM RATINGS
Symbol
V
I
29
28
27
26
2F
0
GND/sOE
1F
1
1F
0
V
CC N
1Q
0
1Q
1
GND
GND
(1)
Unit
V
V
V
W
Rating
Supply Voltage to Ground
DC Input Voltage
REF Input Voltage
Maximum Power Dissipation (T
A
= 85°C)
Max.
–0.5 to +7
–0.5 to V
CC
+0.5
–0.5 to +5.5
0.8
4
3F
1
4F
0
4F
1
V
CCQ
/PE
V
CC N
4Q
1
4Q
0
GND
GND
5
6
7
8
9
10
11
12
13
14
3
2
1
32
31
30
T
STG
Storage Temperature Range
–65°C to +150°C °C
J32-1
25
24
23
22
21
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.
15
16
17
18
19
20
CAPACITANCE
(T
A
= 25° C, f = 1MHz, V
IN
= 0V)
Parameter
C
IN
Description
Input Capacitance
Typ.
5
Max.
7
Unit
pF
V
C CN
V
C CN
3Q
0
3Q
1
FB
2Q
1
2Q
0
LCC
TOP VIEW
NOTE:
1. Capacitance applies to all inputs except TEST, FS, and nF1:0.
PIN DESCRIPTION
Pin Name
REF
FB
TEST
(1)
GND/
sOE
(1)
Type
IN
IN
IN
IN
Reference Clock Input
Feedback Input
When MID or HIGH, disables PLL (except for conditions of Note 1). REF goes to all outputs. Skew selections (see Control
Summary Table) remain in effect. Set LOW for normal operation.
Synchronous Output Enable. When HIGH, it stops clock outputs (except 3Q
0
and 3Q
1
) in a LOW state - 3Q
0
and 3Q
1
may be used
as the feedback signal to maintain phase lock. When TEST is held at MID level and GND/sOE is HIGH, the nF[
1:0
] pins act as
output disable controls for individual banks when nF[
1:0
] = LL. Set GND/sOE LOW for normal operation.
Selectable positive or negative edge control. When LOW/HIGH the outputs are synchronized with the negative/positive edge of the
reference clock.
3-level inputs for selecting 1 of 9 skew taps or frequency functions.
Selects appropriate oscillator circuit based on anticipated frequency range. (See PLL Programmable Skew Range.)
Four banks of two outputs with programmable skew.
Power supply for output buffers
Power supply for phase locked loop and other internal circuitry
Ground
Description
V
CCQ
/PE
nF[
1:0
]
FS
nQ[
1:0
]
V
CCN
V
CCQ
GND
IN
IN
IN
OUT
PWR
PWR
PWR
NOTE:
1. When TEST = MID and GND/sOE = HIGH, PLL remains active with nF[
1:0
] = LL functioning as an output disable control for individual output banks.
Skew selections remain in effect unless nF[
1:0
] = LL.
PROGRAMMABLE SKEW
Output skew with respect to the REF input is adjustable to compensate
for PCB trace delays, backplane propagation delays or to accommodate
requirements for special timing relationships between clocked compo-
nents. Skew is selectable as a multiple of a time unit t
U
which is of the
order of a nanosecond (see PLL Programmable Skew Range and Resolution
Table). There are nine skew configurations available for each output
pair. These configurations are chosen by the nF
1:0
control pins. In order
2
to minimize the number of control pins, 3-level inputs (HIGH-MID-LOW)
are used, they are intended for but not restricted to hard-wiring. Undriven
3-level inputs default to the MID level. Where programmable skew is
not a requirement, the control pins can be left open for the zero skew
default setting. The Control Summary Table shows how to select specific
skew taps by using the nF
1:0
control pins.
IDTCSP5V991
3.3V PROGRAMMABLE SKEW PLL CLOCK DRIVER TURBOCLOCK
COMMERCIAL AND INDUSTRIAL TEMPERATURE RANGES
EXTERNAL FEEDBACK
By providing external feedback, the CSP5V991 gives users flexibility
with regard to skew adjustment. The FB signal is compared with the
input REF signal at the phase detector in order to drive the VCO. Phase
differences cause the VCO of the PLL to adjust upwards or downwards
accordingly.
An internal loop filter moderates the response of the VCO to the
phase detector. The loop filter transfer function has been chosen to
provide minimal jitter (or frequency variation) while still providing accu-
rate responses to input frequency changes.
PLL PROGRAMMABLE SKEW RANGE AND RESOLUTION TABLE
FS = LOW
Timing Unit Calculation (t
U
)
VCO Frequency Range (F
NOM
)
(1,2)
Skew Adjustment Range
(3)
Max Adjustment:
±9.09ns
±49º
±14%
Example 1, F
NOM
= 25MHz
Example 2, F
NOM
= 30MHz
Example 3, F
NOM
= 40MHz
Example 4, F
NOM
= 50MHz
Example 5, F
NOM
= 80MHz
t
U
= 0.91ns
t
U
= 0.76ns
—
—
—
±9.23ns
±83º
±23%
t
U
= 1.54ns
t
U
= 1.28ns
t
U
= 0.96ns
t
U
= 0.77ns
—
±9.38ns
±135º
±37%
—
—
t
U
= 1.56ns
t
U
= 1.25ns
t
U
= 0.78ns
ns
Phase Degrees
% of Cycle Time
1/(44 x F
NOM
)
25 to 35MHz
FS = MID
1/(26 x F
NOM
)
35 to 60MHz
FS = HIGH
1/(16 x F
NOM
)
60 to 85 MHz
Comments
NOTES:
1. The device may be operated outside recommended frequency ranges without damage, but functional operation is not guaranteed. Selecting the ap-
propriate FS value based on input frequency range allows the PLL to operate in its ‘sweet spot’ where jitter is lowest.
2. The level to be set on FS is determined by the nominal operating frequency of the VCO and Time Unit Generator. The VCO frequency always ap-
pears at 1Q
1:0
, 2Q
1:0
, and the higher outputs when they are operated in their undivided modes. The frequency appearing at the REF and FB inputs will
be the same as the VCO when the output connected to FB is undivided. The frequency of the REF and FB inputs will be 1/2 or 1/4 the VCO frequency
when the part is configured for a frequency multiplication by using a divided output as the FB input.
3. Skew adjustment range assumes that a zero skew output is used for feedback. If a skewed Q output is used for feedback, then adjustment range will
be greater. For example if a 4t
U
skewed output is used for feedback, all other outputs will be skewed –4t
U
in addition to whatever skew value is programmed
for those outputs. ‘Max adjustment’ range applies to output pairs 3 and 4 where ± 6t
U
skew adjustment is possible and at the lowest F
NOM
value.
4. The maximum REF Clock Input Frequency is 85MHz. Use Q/2 or Q/4 as feedback and use the Control Summary Table explicitly for output
frequency to 100MHz.
CONTROL SUMMARY TABLE FOR FEEDBACK SIGNALS
nF1:0
LL
(1)
LM
LH
ML
MM
MH
HL
HM
HH
Skew (Pair #1, #2)
–4t
U
–3t
U
–2t
U
–1t
U
Zero Skew
1t
U
2t
U
3t
U
4t
U
Skew (Pair #3)
Divide by 2
–6t
U
–4t
U
–2t
U
Zero Skew
2t
U
4t
U
6t
U
Divide by 4
Skew (Pair #4)
Divide by 2
–6t
U
–4t
U
–2t
U
Zero Skew
2t
U
4t
U
6t
U
Inverted
(2)
NOTES:
1. LL disables outputs if TEST = MID and GND/sOE = HIGH.
2. When pair #4 is set to HH (inverted), GND/
sOE
disables pair #4 HIGH when V
CCQ
/PE = HIGH, GND/
sOE
disables pair #4 LOW when V
CCQ
/PE =
LOW.
3
IDTCSP5V991
3.3V PROGRAMMABLE SKEW PLL CLOCK DRIVER TURBOCLOCK
COMMERCIAL AND INDUSTRIAL TEMPERATURE RANGES
RECOMMENDED OPERATING RANGE
CSP5V991-5, -7
(Industrial)
Symbol
Vcc
T
A
Description
Power Supply Voltage
Ambient Operating Temperature
Min.
3
-40
Max.
3.6
+85
Min.
3
0
CSP5V991-2
(Commercial)
Max.
3.6
+70
Unit
V
°C
DC ELECTRICAL CHARACTERISTICS OVER OPERATING RANGE
Symbol
V
IH
V
IL
V
IHH
V
IMM
V
ILL
I
IN
Parameter
Input HIGH Voltage
Input LOW Voltage
Input HIGH Voltage
(1)
Input MID Voltage
(1)
Input LOW Voltage
(1)
Input Leakage Current
(REF, FB Inputs Only)
3-Level Input DC Current (TEST, FS, nF
1:0
)
Input Pull-Up Current (V
CCQ
/PE)
Input Pull-Down Current (GND/sOE)
Output HIGH Voltage
Output LOW Voltage
Conditions
Guaranteed Logic HIGH (REF, FB Inputs Only)
Guaranteed Logic LOW (REF, FB Inputs Only)
3-Level Inputs Only
3-Level Inputs Only
3-Level Inputs Only
V
IN
= V
CC
or GND
V
CC
= Max.
V
IN
= V
CC
V
IN
= V
CC
/2
V
IN
= GND
I
PU
I
PD
V
OH
V
OL
V
CC
= Max., V
IN
= GND
V
CC
= Max., V
IN
= V
CC
V
CC
= Min., I
OH
=
−12mA
V
CC
= Min., I
OL
= 12mA
Min.
2
—
V
CC
−0.6
V
CC
/2−0.3
—
—
HIGH Level
MID Level
LOW Level
—
—
—
—
—
2.2
—
Max.
—
0.8
—
V
CC
/2+0.3
0.6
±5
±200
±50
±200
±100
±100
—
0.55
µA
µA
V
V
µA
Unit
V
V
V
V
V
µA
I
3
NOTE:
1. These inputs are normally wired to V
CC
, GND, or unconnected. Internal termination resistors bias unconnected inputs to V
CC
/2. If these inputs are
switched, the function and timing of the outputs may be glitched, and the PLL may require an additional t
LOCK
time before all datasheet limits are
achieved.
POWER SUPPLY CHARACTERISTICS
Symbol
I
CCQ
Parameter
Quiescent Power Supply Current
Test Conditions
(1)
V
CC
= Max., TEST = MID, REF = LOW,
V
CCQ
/PE = LOW, GND/sOE = LOW
All outputs unloaded
V
CC
= Max., V
IN
= 3V
V
CC
= Max., C
L
= 0pF
V
CC
= 3.3V, F
REF
= 20MHz, C
L
= 160pF
(1)
V
CC
= 3.3V, F
REF
= 33MHz, C
L
= 160pF
(1)
V
CC
= 3.3V, F
REF
= 66MHz, C
L
= 160pF
(1)
NOTE:
1. For eight outputs, each loaded with 20pF.
Typ.
(2)
8
Max.
25
Unit
mA
∆I
CC
I
CCD
I
TOT
Power Supply Current per Input HIGH
Dynamic Power Supply Current per Output
Total Power Supply Current
1
55
29
42
76
30
90
—
—
—
µA
µA/MHz
mA
mA
mA
4
IDTCSP5V991
3.3V PROGRAMMABLE SKEW PLL CLOCK DRIVER TURBOCLOCK
COMMERCIAL AND INDUSTRIAL TEMPERATURE RANGES
INPUT TIMING REQUIREMENTS
Symbol
t
R
, t
F
t
PWC
D
H
R
EF
Description
(1)
Maximum input rise and fall times, 0.8V to 2V
Input clock pulse, HIGH or LOW
Input duty cycle
Reference Clock Input
Min.
—
3
10
10
Max.
10
—
90
70
Unit
ns/V
ns
%
MHz
NOTE:
1. Where pulse width implied by D
H
is less than t
PWC
limit, t
PWC
limit applies.
SWITCHING CHARACTERISTICS OVER OPERATING RANGE
CSP5V991-2
Symbol
F
NOM
t
RPWH
t
RPWL
t
U
t
SKEWPR
t
SKEW0
t
SKEW1
t
SKEW2
t
SKEW3
t
SKEW4
t
DEV
t
PD
t
ODCV
t
PWH
t
PWL
t
ORISE
t
OFALL
t
LOCK
t
JR
Parameter
VCO Frequency Range
REF Pulse Width HIGH
(11)
REF Pulse Width LOW
(11)
Programmable Skew Time Unit
Zero Output Matched-Pair Skew (xQ
0
, xQ
1
)
(1,2, 3)
Zero Output Skew (All Outputs) C
L
= 0pF
(1, 4)
Output Skew
(Rise-Rise, Fall-Fall, Same Class Outputs)
(1, 5)
Output Skew
(Rise-Fall, Nominal-Inverted, Divided-Divided)
(1, 5)
Output Skew
(Rise-Rise, Fall-Fall, Different Class Outputs)
(1, 5)
Output Skew
(Rise-Fall, Nominal-Inverted, Divided-Inverted)
(1, 2)
Device-to-Device Skew
( 1,2, 6)
REF Input to FB Propagation Delay
( 1,8)
Output Duty Cycle Variation from 50%
(1)
Output HIGH Time Deviation from 50%
(1,9)
Output LOW Time Deviation from 50%
(1,10)
Output Rise Time
(1)
Output Fall Time
(1)
PLL Lock Time
(1,7)
Cycle-to-Cycle Output Jitter
(1)
RMS
Peak-to-Peak
—
—
—
—
—
—
—
−0.25
−1.2
—
—
0.15
0.15
—
—
—
0.05
0.1
0.25
0.3
0.25
0.5
—
0
0
—
—
1
1
—
—
—
0.2
0.25
0.5
1.2
0.5
0.9
0.75
0.25
1.2
2
2.5
1.8
1.8
0.5
25
200
—
—
—
—
—
—
—
−0.5
−1.2
—
—
0.15
0.15
—
—
—
Min.
3
3
Typ.
—
—
CSP5V991-5
CSP5V991-7
Unit
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ms
ps
Max.
Min.
Typ.
Max.
Min.
Typ.
Max.
See PLL Programmable Skew Range and Resolution Table
—
—
3
3
—
—
0.1
0.25
0.6
0.5
0.5
0.5
—
0
0
—
—
1
1
—
—
—
—
—
0.25
0.5
0.7
1.2
0.7
1
1.25
0.5
1.2
2.5
3
1.8
1.8
0.5
40
200
3
3
—
—
—
—
—
—
—
−0.7
−1.2
—
—
0.15
0.15
—
—
—
—
—
0.1
0.3
0.6
1
0.7
1.2
—
0
0
—
—
1.5
1.5
—
—
—
—
—
0.25
0.75
1
1.5
1.2
1.7
1.65
0.7
1.2
3
3.5
2.5
2.5
0.5
40
200
See Control Summary Table
NOTES:
1. All timing tolerances apply for F
NOM
> 25MHz.
2. Skew is the time between the earliest and the latest output transition among all outputs for which the same t
U
delay has been selected when all are
loaded with the specified load.
3. t
SKEWPR
is the skew between a pair of outputs (xQ
0
and xQ
1
) when all eight outputs are selected for 0t
U
.
4. t
SKEW0
is the skew between outputs when they are selected for 0t
U
.
5. There are 3 classes of outputs: Nominal (multiple of t
U
delay), Inverted (4Q
0
and 4Q
1
only with 4F
0
= 4F
1
= HIGH), and Divided (3Qx and 4Qx only
in Divide-by-2 or Divide-by-4 mode).
6. t
DEV
is the output-to-output skew between any two devices operating under the same conditions (V
CC
, ambient temperature, air flow, etc.)
7. t
LOCK
is the time that is required before synchronization is achieved. This specification is valid only after V
CC
is stable and within normal operating
limits. This parameter is measured from the application of a new signal or frequency at REF or FB until t
PD
is within specified limits.
8. t
PD
is measured with REF input rise and fall times (from 0.8V to 2V) of 1.0ns.
9. Measured at 2V.
10. Measured at 0.8V.
11. Refer to Input Timing Requirements table for more detail.
5
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