CY7B9911V(1999) Просмотр технического описания (PDF) - Cypress Semiconductor
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CY7B9911V Datasheet PDF : 11 Pages
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CY7B9911V
3.3V RoboClock+
Pin Definitions
Signal Name I/O
REF
I
FB
FS
1F0, 1F1
2F0, 2F1
3F0, 3F1
4F0, 4F1
TEST
1Q0, 1Q1
2Q0, 2Q1
3Q0, 3Q1
4Q0, 4Q1
VCCN
VCCQ
GND
I
I
I
I
I
I
I
O
O
O
O
PWR
PWR
PWR
Description
Reference frequency input. This input supplies the frequency and timing against which all functional
variation is measured.
PLL feedback input (typically connected to one of the eight outputs).
Three-level frequency range select. See Table 1.
Three-level function select inputs for output pair 1 (1Q0, 1Q1). See Table 2.
Three-level function select inputs for output pair 2 (2Q0, 2Q1). See Table 2.
Three-level function select inputs for output pair 3 (3Q0, 3Q1). See Table 2.
Three-level function select inputs for output pair 4 (4Q0, 4Q1). See Table 2.
Three-level select. See test mode section under the block diagram descriptions.
Output pair 1. See Table 2.
Output pair 2. See Table 2.
Output pair 3. See Table 2.
Output pair 4. See Table 2.
Power supply for output drivers.
Power supply for internal circuitry.
Ground.
Block Diagram Description
Phase Frequency Detector and Filter
These two blocks accept inputs from the Reference Frequency
(REF) input and the Feedback (FB) input and generate correc-
tion information to control the frequency of the Voltage-
Controlled Oscillator (VCO). These blocks, along with the
VCO, form a Phase-Locked Loop (PLL) that tracks the incom-
ing REF signal.
VCO and Time Unit Generator
The VCO accepts analog control inputs from the PLL filter
block and generates a frequency that is used by the time unit
generator to create discrete time units that are selected in the
skew select matrix. The operational range of the VCO is deter-
mined by the FS control pin. The time unit (tU) is determined
by the operating frequency of the device and the level of the
FS pin as shown in Table 1.
Table 1. Frequency Range Select and tU Calculation[1]
FS[2, 3]
fNOM (MHz)
Min. Max.
tU
=
-----------1------------
fNOM × N
where N =
Approximate
Frequency (MHz) At
Which tU = 1.0 ns
LOW 15 30
44
22.7
MID
25 50
26
38.5
HIGH 40 110
16
62.5
Skew Select Matrix
The skew select matrix is comprised of four independent sec-
tions. Each section has two low-skew, high-fanout drivers
(xQ0, xQ1), and two corresponding three-level function select
(xF0, xF1) inputs. Table 2 below shows the nine possible out-
put functions for each section as determined by the function
select inputs. All times are measured with respect to the REF
input assuming that the output connected to the FB input has
0tU selected.
Table 2. Programmable Skew Configurations[1]
Function Selects
Output Functions
1F1, 2F1, 1F0, 2F0, 1Q0, 1Q1,
3F1, 4F1 3F0, 4F0 2Q0, 2Q1 3Q0, 3Q1 4Q0, 4Q1
LOW
LOW
LOW
MID
MID
MID
HIGH
HIGH
HIGH
LOW
MID
HIGH
LOW
MID
HIGH
LOW
MID
HIGH
– 4tU
– 3tU
– 2tU
– 1tU
0tU
+1tU
+2tU
+3tU
+4tU
Divide by 2 Divide by 2
– 6tU
– 4tU
– 2tU
0tU
+2tU
+4tU
+6tU
Divide by 4
– 6tU
– 4tU
– 2tU
0tU
+2tU
+4tU
+6tU
Inverted
Notes:
1. For all three-state inputs, HIGH indicates a connection to VCC, LOW indicates a connection to GND, and MID indicates an open connection. Internal termination
circuitry holds an unconnected input to VCC/2.
2. The level to be set on FS is determined by the “normal” operating frequency (fNOM) of the VCO and Time Unit Generator (see Logic Block Diagram). Nominal
frequency (fNOM) always appears at 1Q0 and the other outputs when they are operated in their undivided modes (see Table 2). The frequency appearing at the
REF and FB inputs will be fNOM when the output connected to FB is undivided. The frequency of the REF and FB inputs will be fNOM/2 or fNOM/4 when the part
is configured for a frequency multiplication by using a divided output as the FB input.
3. When the FS pin is selected HIGH, the REF input must not transition upon power-up until VCC has reached 2.8V.
2
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