isppac10 Lattice Semiconductor Corp., isppac10 Datasheet - Page 9

isppac10

Manufacturer Part Number

isppac10

Description

In-system Programmable Analog Circuit

Manufacturer

Lattice Semiconductor Corp.

Datasheet

1.ISPPAC10.pdf (48 pages)

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Lattice Semiconductor

Global clock pins have additional capabilities that allow for higher performance applications. Two global clock pins

can be paired together to create a single global clock pin that can interface with certain differential signals.

The TOE and JTAG pins of the ispMACH 5000VG device are the only pins that do not have sysIO capabilities.

These pins only support the LVTTL and LVCMOS standards.

There are three classes of I/O interface standards that are implemented in the ispMACH 5000VG devices. The ﬁrst

is the unterminated, single-ended interface. It includes the 3.3V LVTTL standard along with the 1.8V, 2.5V and 3.3V

LVCMOS interface standards. Additionally, PCI 3.3, PCI-X and AGP-1X are all subsets of this type of interface.

The second type of interface implemented is the terminated, single-ended interface standard. This group of inter-

faces includes different versions of SSTL and HSTL interfaces along with CTT and GTL+. Usage of these particular

I/O interfaces requires the use of an additional VREF signal. At the system level, a termination voltage, VTT, is also

required. Typically, an output will be terminated to VTT at the receiving end of the transmission line it is driving.

The ﬁnal types of interfaces implemented are the differential standards LVDS and LVPECL. These interfaces are

implemented on clock pins only. When using one of the differential standards, a pair of global clock pins (GCLK0

and GCLK1 or GCLK3 and GCLK2) is combined to create a single clock signal.

For more information on the sysIO capability, please refer to Technical Note TN1000: ispMACH 5000VG sysIO

Design and Usage Guidelines .

GLB Clock Distribution

The ispMACH 5000VG family has four dedicated clock input pins: GCLK0-GCLK3. GLCK0 and GCLK3 can be

routed through a PLL circuit or routed directly to the internal clock nets. The internal clock nets (CLK0-CLK3) are

directly related to the dedicated clock pins (see Secondary Clock Divider exception when using the sysCLOCK cir-

cuit). These feed the GLB clock multiplexes which generate the GLB clock signals (BCLK0-BCLK3). The GLB clock

multiplexer allows a variety of true and complementary versions of the clocks to be used within the GLB. Each

block clock can be the true or inverse of its associated global clock or the inverse of the adjacent global clock.

Figure 9 shows the clock distribution network.

Figure 9. Clock Distribution Network

GCLK0

GCLK1

GCLK2

GCLK3

VREF0

VREF1

VREF2

VREF3

sysCLOCK PLLs

PLL0

PLL1

CLK_OUT0

SEC_OUT0

SEC_OUT1

CLK_OUT1

Global Clock Routing

CLK0

CLK1

CLK2

CLK3

Clock Net

ispMACH 5000VG Family Data Sheet

GLB Clock Routing

BCLK0

BCLK1

BCLK2

BCLK3

I/O/CLK_OUT0

I/O/CLK_OUT1

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isppac10 Lattice Semiconductor Corp., isppac10 Datasheet - Page 9

isppac10

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