2-62 Revision 16 Table 2-91 IGLOO PLUS CCC/PLL Specification For IGLOO PLUS V2 Devices, 1.2 V " />
鍙冩暩(sh霉)璩囨枡
鍨嬭櫉(h脿o)锛� AGLP060V2-CSG289
寤犲晢锛� Microsemi SoC
鏂囦欢闋�(y猫)鏁�(sh霉)锛� 109/134闋�(y猫)
鏂囦欢澶�?銆�?/td> 0K
鎻忚堪锛� IC FPGA IGLOO PLUS 60K 289-CSP
妯�(bi膩o)婧�(zh菙n)鍖呰锛� 152
绯诲垪锛� IGLOO PLUS
閭忚集鍏冧欢/鍠厓鏁�(sh霉)锛� 1584
RAM 浣嶇附瑷�(j矛)锛� 18432
杓稿叆/杓稿嚭鏁�(sh霉)锛� 157
闁€(m茅n)鏁�(sh霉)锛� 60000
闆绘簮闆诲锛� 1.14 V ~ 1.575 V
瀹夎椤�(l猫i)鍨嬶細 琛ㄩ潰璨艰
宸ヤ綔婧害锛� 0°C ~ 70°C
灏佽/澶栨锛� 289-TFBGA锛孋SBGA
渚涙噳(y墨ng)鍟嗚ō(sh猫)鍌欏皝瑁濓細 289-CSP锛�14x14锛�
绗�1闋�(y猫)绗�2闋�(y猫)绗�3闋�(y猫)绗�4闋�(y猫)绗�5闋�(y猫)绗�6闋�(y猫)绗�7闋�(y猫)绗�8闋�(y猫)绗�9闋�(y猫)绗�10闋�(y猫)绗�11闋�(y猫)绗�12闋�(y猫)绗�13闋�(y猫)绗�14闋�(y猫)绗�15闋�(y猫)绗�16闋�(y猫)绗�17闋�(y猫)绗�18闋�(y猫)绗�19闋�(y猫)绗�20闋�(y猫)绗�21闋�(y猫)绗�22闋�(y猫)绗�23闋�(y猫)绗�24闋�(y猫)绗�25闋�(y猫)绗�26闋�(y猫)绗�27闋�(y猫)绗�28闋�(y猫)绗�29闋�(y猫)绗�30闋�(y猫)绗�31闋�(y猫)绗�32闋�(y猫)绗�33闋�(y猫)绗�34闋�(y猫)绗�35闋�(y猫)绗�36闋�(y猫)绗�37闋�(y猫)绗�38闋�(y猫)绗�39闋�(y猫)绗�40闋�(y猫)绗�41闋�(y猫)绗�42闋�(y猫)绗�43闋�(y猫)绗�44闋�(y猫)绗�45闋�(y猫)绗�46闋�(y猫)绗�47闋�(y猫)绗�48闋�(y猫)绗�49闋�(y猫)绗�50闋�(y猫)绗�51闋�(y猫)绗�52闋�(y猫)绗�53闋�(y猫)绗�54闋�(y猫)绗�55闋�(y猫)绗�56闋�(y猫)绗�57闋�(y猫)绗�58闋�(y猫)绗�59闋�(y猫)绗�60闋�(y猫)绗�61闋�(y猫)绗�62闋�(y猫)绗�63闋�(y猫)绗�64闋�(y猫)绗�65闋�(y猫)绗�66闋�(y猫)绗�67闋�(y猫)绗�68闋�(y猫)绗�69闋�(y猫)绗�70闋�(y猫)绗�71闋�(y猫)绗�72闋�(y猫)绗�73闋�(y猫)绗�74闋�(y猫)绗�75闋�(y猫)绗�76闋�(y猫)绗�77闋�(y猫)绗�78闋�(y猫)绗�79闋�(y猫)绗�80闋�(y猫)绗�81闋�(y猫)绗�82闋�(y猫)绗�83闋�(y猫)绗�84闋�(y猫)绗�85闋�(y猫)绗�86闋�(y猫)绗�87闋�(y猫)绗�88闋�(y猫)绗�89闋�(y猫)绗�90闋�(y猫)绗�91闋�(y猫)绗�92闋�(y猫)绗�93闋�(y猫)绗�94闋�(y猫)绗�95闋�(y猫)绗�96闋�(y猫)绗�97闋�(y猫)绗�98闋�(y猫)绗�99闋�(y猫)绗�100闋�(y猫)绗�101闋�(y猫)绗�102闋�(y猫)绗�103闋�(y猫)绗�104闋�(y猫)绗�105闋�(y猫)绗�106闋�(y猫)绗�107闋�(y猫)绗�108闋�(y猫)鐣�(d膩ng)鍓嶇109闋�(y猫)绗�110闋�(y猫)绗�111闋�(y猫)绗�112闋�(y猫)绗�113闋�(y猫)绗�114闋�(y猫)绗�115闋�(y猫)绗�116闋�(y猫)绗�117闋�(y猫)绗�118闋�(y猫)绗�119闋�(y猫)绗�120闋�(y猫)绗�121闋�(y猫)绗�122闋�(y猫)绗�123闋�(y猫)绗�124闋�(y猫)绗�125闋�(y猫)绗�126闋�(y猫)绗�127闋�(y猫)绗�128闋�(y猫)绗�129闋�(y猫)绗�130闋�(y猫)绗�131闋�(y猫)绗�132闋�(y猫)绗�133闋�(y猫)绗�134闋�(y猫)
IGLOO PLUS DC and Switching Characteristics
2-62
Revision 16
Table 2-91 IGLOO PLUS CCC/PLL Specification
For IGLOO PLUS V2 Devices, 1.2 V DC Core Supply Voltage
Parameter
Min.
Typ.
Max.
Units
Clock Conditioning Circuitry Input Frequency fIN_CCC
1.5
160
MHz
Clock Conditioning Circuitry Output Frequency fOUT_CCC
0.75
160
MHz
Delay Increments in Programmable Delay Blocks 1, 2
5803
ps
Number of Programmable Values in Each Programmable Delay Block
32
Serial Clock (SCLK) for Dynamic PLL4,5
60
MHz
Input Cycle-to-Cycle Jitter (peak magnitude)
.25
ns
Acquisition Time
LockControl = 0
300
s
LockControl = 1
6.0
ms
Tracking Jitter6
LockControl = 0
4
ns
LockControl = 1
3
ns
Output Duty Cycle
48.5
51.5
%
Delay Range in Block: Programmable Delay 1 1, 2
2.3
20.86
ns
Delay Range in Block: Programmable Delay 2 1, 2
0.863
20.86
ns
Delay Range in Block: Fixed Delay 1, 2
5.7
ns
VCO Output Peak-to-Peak Period Jitter FCCC_OUT7
Maximum Peak-to-Peak Period Jitter7,8,9
SSO
2
SSO
4
SSO
8 SSO 16
0.75 MHz to 50 MHz
0.50%
1.20%
2.00%
3.00%
50 MHz to 160 MHz
2.50%
5.00%
7.00%
15.00%
Notes:
1. This delay is a function of voltage and temperature. See Table 2-6 on page 2-6 and Table 2-7 on page 2-7 for deratings.
2. TJ = 25掳C, VCC = 1.2 V
3. When the CCC/PLL core is generated by Microsemi core generator software, not all delay values of the specified delay
increments are available. Refer to the online help associated with the core for more information.
4. Maximum value obtained for a STD speed grade device in Worst Case Commercial Conditions.For specific junction
temperature and voltage supply levels, refer to Table 2-6 on page 2-6 and Table 2-7 on page 2-7 for derating values.
5. The AGLP030 device does not support PLL.
6. Tracking jitter is defined as the variation in clock edge position of PLL outputs with reference to PLL input clock edge.
Tracking jitter does not measure the variation in PLL output period, which is covered by period jitter parameter.
7. VCO output jitter is calculated as a percentage of the VCO frequency. The jitter (in ps) can be calculated by multiplying
the VCO period by the per cent jitter. The VCO jitter (in ps) applies to CCC_OUT regardless of the output divider
settings. For example, if the jitter on VCO is 300 ps, the jitter on CCC_OUT is also 300 ps, regardless of the output
divider settings.
8. Measurements are done with LVTTL 3.3 V, 8 mA, I/O drive strength and high slew rate. VCC/VCCPLL = 1.14 V,
VCCI = 3.3 V, VQ/PQ/TQ type of packages, 20 pF load.
9. SSO are outputs that are synchronous to a single clock domain, and have their clock-to-out times within 卤200 ps of each
other. Switching I/Os are placed outside of the PLL bank. Refer to the "Simultaneously Switching Outputs (SSOs) and
Printed Circuit Board Layout" section in the IGLOO PLUS FPGA Fabric User鈥檚 Guide
鐩搁棞(gu膩n)PDF璩囨枡
PDF鎻忚堪
AGLP060V2-CS289 IC FPGA IGLOO PLUS 60K 289-CSP
AT93C86A-10TU-2.7 IC EEPROM 16KBIT 2MHZ 8TSSOP
A3P250L-FGG144 IC FPGA 1KB FLASH 250K 144-FBGA
RMA50DRMS CONN EDGECARD 100POS .125 SQ WW
A3P250L-FG144 IC FPGA 1KB FLASH 250K 144-FBGA
鐩搁棞(gu膩n)浠g悊鍟�/鎶€琛�(sh霉)鍙冩暩(sh霉)
鍙冩暩(sh霉)鎻忚堪
AGLP060-V2CSG289ES 鍒堕€犲晢:ACTEL 鍒堕€犲晢鍏ㄧū:Actel Corporation 鍔熻兘鎻忚堪:IGLOO PLUS Low-Power Flash FPGAs with FlashFreeze Technology
AGLP060-V2CSG289I 鍒堕€犲晢:ACTEL 鍒堕€犲晢鍏ㄧū:Actel Corporation 鍔熻兘鎻忚堪:IGLOO PLUS Low-Power Flash FPGAs with FlashFreeze Technology
AGLP060V2-CSG289I 鍔熻兘鎻忚堪:IC FPGA IGLOO PLUS 60K 289-CSP RoHS:鏄� 椤�(l猫i)鍒�:闆嗘垚闆昏矾 (IC) >> 宓屽叆寮� - FPGA锛堢従(xi脿n)鍫�(ch菐ng)鍙法绋嬮杸(m茅n)闄e垪锛� 绯诲垪:IGLOO PLUS 妯�(bi膩o)婧�(zh菙n)鍖呰:90 绯诲垪:ProASIC3 LAB/CLB鏁�(sh霉):- 閭忚集鍏冧欢/鍠厓鏁�(sh霉):- RAM 浣嶇附瑷�(j矛):36864 杓稿叆/杓稿嚭鏁�(sh霉):157 闁€(m茅n)鏁�(sh霉):250000 闆绘簮闆诲:1.425 V ~ 1.575 V 瀹夎椤�(l猫i)鍨�:琛ㄩ潰璨艰 宸ヤ綔婧害:-40°C ~ 125°C 灏佽/澶栨:256-LBGA 渚涙噳(y墨ng)鍟嗚ō(sh猫)鍌欏皝瑁�:256-FPBGA锛�17x17锛�
AGLP060-V2CSG289PP 鍒堕€犲晢:ACTEL 鍒堕€犲晢鍏ㄧū:Actel Corporation 鍔熻兘鎻忚堪:IGLOO PLUS Low-Power Flash FPGAs with FlashFreeze Technology
AGLP060-V2FCS289 鍒堕€犲晢:ACTEL 鍒堕€犲晢鍏ㄧū:Actel Corporation 鍔熻兘鎻忚堪:IGLOO PLUS Low-Power Flash FPGAs with FlashFreeze Technology