參數(shù)資料
型號: AX250-PQ208MX79
元件分類: FPGA
英文描述: FPGA, 2816 CLBS, 154000 GATES, 649 MHz, PQFP208
封裝: 0.50 MM PITCH, PLASTIC, QFP-208
文件頁數(shù): 6/230頁
文件大小: 6485K
代理商: AX250-PQ208MX79
第1頁第2頁第3頁第4頁第5頁當前第6頁第7頁第8頁第9頁第10頁第11頁第12頁第13頁第14頁第15頁第16頁第17頁第18頁第19頁第20頁第21頁第22頁第23頁第24頁第25頁第26頁第27頁第28頁第29頁第30頁第31頁第32頁第33頁第34頁第35頁第36頁第37頁第38頁第39頁第40頁第41頁第42頁第43頁第44頁第45頁第46頁第47頁第48頁第49頁第50頁第51頁第52頁第53頁第54頁第55頁第56頁第57頁第58頁第59頁第60頁第61頁第62頁第63頁第64頁第65頁第66頁第67頁第68頁第69頁第70頁第71頁第72頁第73頁第74頁第75頁第76頁第77頁第78頁第79頁第80頁第81頁第82頁第83頁第84頁第85頁第86頁第87頁第88頁第89頁第90頁第91頁第92頁第93頁第94頁第95頁第96頁第97頁第98頁第99頁第100頁第101頁第102頁第103頁第104頁第105頁第106頁第107頁第108頁第109頁第110頁第111頁第112頁第113頁第114頁第115頁第116頁第117頁第118頁第119頁第120頁第121頁第122頁第123頁第124頁第125頁第126頁第127頁第128頁第129頁第130頁第131頁第132頁第133頁第134頁第135頁第136頁第137頁第138頁第139頁第140頁第141頁第142頁第143頁第144頁第145頁第146頁第147頁第148頁第149頁第150頁第151頁第152頁第153頁第154頁第155頁第156頁第157頁第158頁第159頁第160頁第161頁第162頁第163頁第164頁第165頁第166頁第167頁第168頁第169頁第170頁第171頁第172頁第173頁第174頁第175頁第176頁第177頁第178頁第179頁第180頁第181頁第182頁第183頁第184頁第185頁第186頁第187頁第188頁第189頁第190頁第191頁第192頁第193頁第194頁第195頁第196頁第197頁第198頁第199頁第200頁第201頁第202頁第203頁第204頁第205頁第206頁第207頁第208頁第209頁第210頁第211頁第212頁第213頁第214頁第215頁第216頁第217頁第218頁第219頁第220頁第221頁第222頁第223頁第224頁第225頁第226頁第227頁第228頁第229頁第230頁
Axcelerator Family FPGAs
v2.8
2-89
Building RAM and FIFO Modules
RAM and FIFO modules can be generated and included
in a design in two different ways:
Using the SmartGen Core Generator where the
user defines the depth and width of the FIFO/
RAM, and then instantiates this block into the
design
(please
refer
to
Actel’s
Memory System Builder User’s Guide for more
information).
The alternative is to instantiate the RAM/FIFO
blocks manually, using inverters for polarity
control and tying all unused data bits to ground.
Other Architectural Features
Low Power Mode
Although designed for high performance, the AX
architecture also allows the user to place the device into
a low power mode. Each I/O bank in an Axcelerator
device can be configured individually, when in low
power mode, to tristate all outputs, disable inputs, or
both. The low power mode is activated by asserting the
LP pin, which is grounded in normal operation.
While in the low power mode, the device is still fully
functional and all internal logic states are preserved. This
allows a user to disable all but a few signals and operate
the part in a low-frequency, watchdog mode if desired.
Please note, if the I/O bank is not disabled, differential I/Os
belonging to the I/O bank will still consume normal
power, even when operating in the low power mode.
The Axcelerator device will resume normal operation
10
μs after the LP pin is pulled Low.
To further reduce power consumption, the internal
charge pump can be bypassed and an external power
supply voltage can be used instead. This saves the
internal charge-pump operating current, resulting in no
DC current draw. The Axcelerator family devices have a
dedicated "VPUMP" pin that can be used to access an
external charge pump device. In normal chip operation,
when using the internal charge pump, VPUMP should be
tied to GND. When the voltage level on VPUMP is set to
3.3V, the internal charge pump is turned off, and the
VPUMP voltage will be used as the charge pump voltage.
Adequate voltage regulation (i.e. high drive, low output
impedance, and good decoupling) should be used at
VPUMP.
In addition, any PLL in use can be powered down to
further reduce power consumption. This can be done
with the PowerDown pin driven Low. Driving this pin
High restarts the PLL with the output clock(s) being
stable once lock is restored.
JTAG
Axcelerator offers a JTAG interface that is compliant with
the IEEE 1149.1 standard. The user can employ the JTAG
interface for probing a design and performing any JTAG
Public Instructions as defined in the Table 2-102.
Interface
The interface consists of four inputs: Test Mode Select
(TMS), Test Data In (TDI), Test Clock (TCK), TAP Controller
Reset (TRST), and an output, Test Data Out (TDO). TMS,
TDI, and TRST have on-chip pull-up resistors.
TRST
TRST (Test-Logic Reset) is an active-low, asynchronous
reset signal to the TAP controller. The TRST input can be
used to reset the Test Access Port (TAP) Controller to the
TRST state. The TAP Controller can be held at this state
permanently by grounding the TRST pin. To hold the
JTAG TAP controller in the TRST state, it is recommended
to connect TRST to ground via a 1 k
Ω resistor.
There is an optional internal pull-up resistor available for
the TRST input that can be set by the user at
programming. Care should be exercised when using this
option in combination with an external tie-off to
ground.
An on-chip power-on-reset (POWRST) circuit is included.
POWRST has the same function as "TRST," but it only
occurs at power-up or during recovery from a VCCA and/
or VCCDA voltage drop.
TDO
TDO is normally tristated, and it is active only when the
TAP controller is in the "Shift_DR" state or "Shift_IR"
state. The least significant bit of the selected register (i.e.
IR or DR) is clocked out to TDO first by the falling edge of
TCK.
TAP Controller
The TAP Controller is compliant with the IEEE Standard
1149.1. It is a state machine of 16 states that controls the
Table 2-102 JTAG Instruction Code
Instruction (IR4:IR0)
Binary Code
Extest
00000
Preload / Sample
00001
Intest
00010
USERCODE
00011
IDCODE
00100
HIGHZ
01110
CLAMP
01111
Diagnostic
10000
Reserved
All others
Bypass
11111
相關PDF資料
PDF描述
AX250-PQ208M FPGA, 2816 CLBS, 154000 GATES, 649 MHz, PQFP208
AX250-PQ208X79 FPGA, 2816 CLBS, 154000 GATES, 649 MHz, PQFP208
AX250-PQ208 FPGA, 2816 CLBS, 154000 GATES, 649 MHz, PQFP208
AX250-PQG208I FPGA, 2816 CLBS, 154000 GATES, 649 MHz, PQFP208
AX250-PQG208M FPGA, 2816 CLBS, 154000 GATES, 649 MHz, PQFP208
相關代理商/技術參數(shù)
參數(shù)描述
AX250-PQ896 制造商:ACTEL 制造商全稱:Actel Corporation 功能描述:Axcelerator Family FPGAs
AX250-PQ896B 制造商:ACTEL 制造商全稱:Actel Corporation 功能描述:Axcelerator Family FPGAs
AX250-PQ896I 制造商:ACTEL 制造商全稱:Actel Corporation 功能描述:Axcelerator Family FPGAs
AX250-PQ896M 制造商:ACTEL 制造商全稱:Actel Corporation 功能描述:Axcelerator Family FPGAs
AX250-PQ896PP 制造商:ACTEL 制造商全稱:Actel Corporation 功能描述:Axcelerator Family FPGAs