CY28346ZXC Datasheet CY28346OXC, CY28346ZXCT, CY28346ZXC | P7-P9

CY28346

Document #: 38-07331 Rev. *C Page 7 of 20

Buffer Characteristics

Current Mode CPU Clock Buffer Characteristics

The current mode output buffer detail and current reference

circuit details are contained in the previous table of this data

sheet. The following parameters are used to specify output

buffer characteristics:

1. Output impedance of the current mode buffer circuit—Ro

(see Figure 4).

2. Minimum and maximum required voltage operation range

of the circuit—Vop (see Figure 4).

3. Series resistance in the buffer circuit—Ros (see Figure 4).

4. Current accuracy at given configuration into nominal test

load for given configuration.

Iout is selectable depending on implementation. The param-

eters above apply to all configurations. Vout is the voltage at

the pin of the device.

The various output current configurations are shown in the

host swing select functions table. For all configurations, the

deviation from the expected output current is ±7% as shown in

the current accuracy table.

2.4V

0.4V

3.3V

Tr Tf

1.5V

3.3V signals

tDC

Probe

Out

ut under Tes

Load Cap

Figure 3. For Single-ended Output Signals

1.2V0V

Iout

Ros

VDD3 (3.3V +/- 5%)

Vout = 1.2V max Vout

Slope ~ 1/R

Figure 4. Buffer Characteristics

Table 4. Host Clock (HCSL) Buffer Characteristics

Characteristic Min. Max.

CY28346

Document #: 38-07331 Rev. *C Page 8 of 20

USB and DOT 48M Phase Relationship

The 48MUSB and 48MDOT clocks are in phase. It is under-

stood that the difference in edge rate will introduce some

inherent offset. When 3V66_1/VCH clock is configured for

VCH (48-MHz) operation it is also in phase with the USB and

DOT outputs. See Figure 5.

66IN to 66B(0:2) Buffered Prop Delay

The 66IN to 66B(0:2) output delay is shown in Figure 6.

The Tpd is the prop delay from the input pin (66IN) to the

output pins (66B[0:2]). The outputs’ variation of Tpd is

described in the AC parameters section of this data sheet. The

measurement taken at 1.5V.

66B(0:2) to PCI Buffered Clock Skew

Figure 7 shows the difference (skew) between the 3V33(0:5)

outputs when the 66M clocks are connected to 66IN. This

offset is described in the Group Timing Relationship and Toler-

ances section of this data sheet. The measurements were

taken at 1.5V.

3V66 to PCI Un-Buffered Clock Skew

Figure 8 shows the timing relationship between 3V66(0:5) and

PCI(0:6) and PCI_F(0:2) when configured to run in the unbuf-

fered mode.

Ro 3000Ω (recommended) N/A

Ros

Vout N/A 1.2V

Table 4. Host Clock (HCSL) Buffer Characteristics

Table 5. CPU Clock Current Select Function

Mult0 Board Target Trace/Term Z Reference R, Iref – Vdd (3*Rr) Output Current Voh @ Z

050Ω Rr = 221 1%, Iref = 5.00mA Ioh = 4*Iref 1.0V @ 50

150Ω Rr = 475 1%, Iref = 2.32mA Ioh = 6*Iref 0.7V @ 50

Table 6. Group Timing Relationship and Tolerances

Description Offset Tolerance Conditions

3V66 to PCI 2.5 ns ±1.0 ns 3V66 Leads PCI (unbuffered mode)

48MUSB to 48MDOT Skew 0.0 ns ±1.0 ns 0 degrees phase shift

66B(0:2) to PCI offset 2.5 ns ±1.0 ns 66B Leads PCI (buffered mode)

48MUSB

48MDOT

Figure 5. 48MUSB and 48MDOT Phase Relationship

66IN

66B(0:2)

Tpd

Figure 6. 66IN to 66B(0:2) Output Delay Figure

66B(0:2)

PCI(0:6)

PCIF(0:2)

1.5-

3.5ns

Figure 7. Buffer Mode – 33V66(0:1); 66BUF(0:2) Phase Relationship

CY28346

Document #: 38-07331 Rev. *C Page 9 of 20

Special Functions

PCI_F and IOAPIC Clock Outputs

The PCIF clock outputs are intended to be used, if required,

for systems IOAPIC clock functionality. Any two of the PCI_F

clock outputs can be used as IOAPIC 33 Mhz clock outputs.

They are 3.3V outputs will be divided down via a simple

resistive voltage divider to meet specific system IOAPIC clock

voltage requirements. In the event that these clocks are not

required, they can be used as general PCI clocks or disabled

via the assertion of the PCI_STP# pin.

3V66_1/VCH Clock Output

The 3V66_1/VCH pin has a dual functionality that is selectable

via SMBus.

Configured as DRCG (66M), SMBus Byte0, Bit 5 = “0”

The default condition for this pin is to power-up in a 66M

operation. In 66M operation this output is SSCG-capable and

when spreading is turned on, this clock will be modulated.

Configured as VCH (48M), SMBus Byte0, Bit 5 = “1”

In this mode, output is configured as a 48-Mhz non-spread

spectrum output that is phase-aligned with other 48M outputs

(USB and DOT) to within 1 ns pin-to-pin skew. The switching

of 3V66_1/VCH into VCH mode occurs at system power-on.

When the SMBus Bit 5 of Byte 0 is programmed from a “0” to

a “1,” the 3V66_1/VCH output may glitch while transitioning to

48M output mode.

CPU_STP# Clarification

The CPU_STP# signal is an active LOW input used to

synchronously stop and start the CPU output clocks while the

rest of the clock generator continues to function.

CPU_STP# – Assertion

When CPU_STP# pin is asserted, all CPUT/C outputs that are

set with the SMBus configuration to be stoppable via assertion

of CPU_STP# will be stopped after being sampled by two

falling CPUT/C clock edges. The final state of the stopped

CPU signals is CPUT = HIGH and CPU0C = LOW. There is no

change to the output drive current values during the stopped

state. The CPUT is driven HIGH with a current value equal to

(Mult 0 “select”) × (Iref), and the CPUC signal will not be

driven. Due to external pull-down circuitry CPUC will be LOW

during this stopped state.

CPU_STP# Deassertion

The deassertion of the CPU_STP# signal will cause all

CPUT/C outputs that were stopped to resume normal

operation in a synchronous manner (meaning that no short or

stretched clock pulses will be produces when the clock

resumes). The maximum latency from the deassertion to

active outputs is no more than two CPUC clock cycles.

Three-state Control of CPU Clocks Clarification

During CPU_STP# and PD# modes, CPU clock outputs may

be set to driven or undriven (tri-state) by setting the corre-

sponding SMBus entry in Bit6 of Byte0 and Bit6 of Byte1.

PCI(0:6)

PCI_F(0:2)

Tpci

3V66(0:5)

Figure 8. Unbuffered Mode – 3V66(0:5) to PCI (0:6) and PCI_F(0:2) Phase Relationship

CPU_STP#

CPUT

CPUC

CPUT

CPUC

Figure 9. CPU_STP# Assertion Waveform

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P18 P19-P20

CY28346ZXC

Mfr. #:

Buy CY28346ZXC

Manufacturer:

Cypress Semiconductor

Description:

IC CLK FREQ SYNC CPU 200MHZ

Lifecycle:

New from this manufacturer.

Delivery:

DHL FedEx Ups TNT EMS

Payment:

T/T Paypal Visa MoneyGram Western Union

CY28346ZXC

CY28346ZXC

Products related to this Datasheet