(W or s t - C as e M i l i t a r y Cond i t i o n s , V CC " />
鍙冩暩(sh霉)璩囨枡
鍨嬭櫉锛� A1010B-VQ80I
寤犲晢锛� Microsemi SoC
鏂囦欢闋佹暩(sh霉)锛� 30/98闋�
鏂囦欢澶�?銆�?/td> 0K
鎻忚堪锛� IC FPGA 1200 GATES 80-VQFP IND
妯�(bi膩o)婧�(zh菙n)鍖呰锛� 90
绯诲垪锛� ACT™ 1
LAB/CLB鏁�(sh霉)锛� 295
杓稿叆/杓稿嚭鏁�(sh霉)锛� 57
闁€鏁�(sh霉)锛� 1200
闆绘簮闆诲锛� 4.5 V ~ 5.5 V
瀹夎椤炲瀷锛� 琛ㄩ潰璨艰
宸ヤ綔婧害锛� -40°C ~ 85°C
灏佽/澶栨锛� 80-TQFP
渚涙噳(y墨ng)鍟嗚ō(sh猫)鍌欏皝瑁濓細 80-VQFP锛�14x14锛�
36
A1 42 5A T i m i n g C har a c t e r i st i c s
(W or s t - C as e M i l i t a r y Cond i t i o n s , V CC = 4.5 V, TJ = 1 25掳C)
鈥樷€�1鈥� Speed
鈥楽td鈥� Speed
Parameter
Description
Min.
Max.
Min.
Max.
Units
Logic Module Propagation Delays1
tPD
Internal Array Module
3.0
3.5
ns
tCO
Sequential Clock to Q
3.0
3.5
ns
tCLR
Asynchronous Clear to Q
3.0
3.5
ns
Logic Module Predicted Routing Delays2
tRD1
FO=1 Routing Delay
1.3
1.5
ns
tRD2
FO=2 Routing Delay
1.9
2.1
ns
tRD3
FO=3 Routing Delay
2.1
2.5
ns
tRD4
FO=4 Routing Delay
2.6
2.9
ns
tRD8
FO=8 Routing Delay
4.2
4.9
ns
Logic Module Sequential Timing
tSUD
Flip-Flop (Latch) Data Input Setup
0.9
1.0
ns
tHD
Flip-Flop (Latch) Data Input Hold
0.0
ns
tSUENA
Flip-Flop (Latch) Enable Setup
0.9
1.0
ns
tHENA
Flip-Flop (Latch) Enable Hold
0.0
ns
tWASYN
Asynchronous Pulse Width
3.8
4.4
ns
tWCLKA
Flip-Flop Clock Pulse Width
3.8
4.4
ns
tA
Flip-Flop Clock Input Period
7.9
9.3
ns
fMAX
Flip-Flop Clock Frequency
125
100
MHz
Input Module Propagation Delays
tINY
Input Data Pad to Y
4.2
4.9
ns
tICKY
Input Reg IOCLK Pad to Y
7.0
8.2
ns
tOCKY
Output Reg IOCLK Pad to Y
7.0
8.2
ns
tICLRY
Input Asynchronous Clear to Y
7.0
8.2
ns
tOCLRY
Output Asynchronous Clear to Y
7.0
8.2
ns
Input Module Predicted Routing Delays1, 3
tIRD1
FO=1 Routing Delay
1.3
1.5
ns
tIRD2
FO=2 Routing Delay
1.9
2.1
ns
tIRD3
FO=3 Routing Delay
2.1
2.5
ns
tIRD4
FO=4 Routing Delay
2.6
2.9
ns
tIRD8
FO=8 Routing Delay
4.2
4.9
ns
Notes:
1.
For dual-module macros, use tPD + tRD1 + tPDn , tCO + tRD1 + tPDn , or tPD1 + tRD1 + tSUD , whichever is appropriate.
2.
Routing delays are for typical designs across worst-case operating conditions. These parameters should be used for estimating device
performance. Post-route timing analysis or simulation is required to determine actual worst-case performance. Post-route timing is
based on actual routing delay measurements performed on the device prior to shipment.
3.
Optimization techniques may further reduce delays by 0 to 4 ns.
鐩搁棞(gu膩n)PDF璩囨枡
PDF鎻忚堪
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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
A1010B-VQG80C 鍔熻兘鎻忚堪:IC FPGA 1200 GATES 80-VQFP COM RoHS:鏄� 椤炲垾:闆嗘垚闆昏矾 (IC) >> 宓屽叆寮� - FPGA锛堢従(xi脿n)鍫村彲绶ㄧ▼闁€闄e垪锛� 绯诲垪:ACT™ 1 妯�(bi膩o)婧�(zh菙n)鍖呰:40 绯诲垪:SX-A LAB/CLB鏁�(sh霉):6036 閭忚集鍏冧欢/鍠厓鏁�(sh霉):- RAM 浣嶇附瑷�:- 杓稿叆/杓稿嚭鏁�(sh霉):360 闁€鏁�(sh霉):108000 闆绘簮闆诲:2.25 V ~ 5.25 V 瀹夎椤炲瀷:琛ㄩ潰璨艰 宸ヤ綔婧害:0°C ~ 70°C 灏佽/澶栨:484-BGA 渚涙噳(y墨ng)鍟嗚ō(sh猫)鍌欏皝瑁�:484-FPBGA锛�27X27锛�
A1010B-VQG80I 鍔熻兘鎻忚堪:IC FPGA 1200 GATES 80-VQFP IND RoHS:鏄� 椤炲垾:闆嗘垚闆昏矾 (IC) >> 宓屽叆寮� - FPGA锛堢従(xi脿n)鍫村彲绶ㄧ▼闁€闄e垪锛� 绯诲垪:ACT™ 1 妯�(bi膩o)婧�(zh菙n)鍖呰:40 绯诲垪:SX-A LAB/CLB鏁�(sh霉):6036 閭忚集鍏冧欢/鍠厓鏁�(sh霉):- RAM 浣嶇附瑷�:- 杓稿叆/杓稿嚭鏁�(sh霉):360 闁€鏁�(sh霉):108000 闆绘簮闆诲:2.25 V ~ 5.25 V 瀹夎椤炲瀷:琛ㄩ潰璨艰 宸ヤ綔婧害:0°C ~ 70°C 灏佽/澶栨:484-BGA 渚涙噳(y墨ng)鍟嗚ō(sh猫)鍌欏皝瑁�:484-FPBGA锛�27X27锛�
A1010J1AQE2 鍒堕€犲晢:Switchcraft 鍔熻兘鎻忚堪:TOGGLE SWITCH
A1010-JQ44B 鍒堕€犲晢:鏈煡寤犲 鍒堕€犲晢鍏ㄧū:鏈煡寤犲 鍔熻兘鎻忚堪:Field Programmable Gate Array (FPGA)
A1010-JQ44C 鍒堕€犲晢:鏈煡寤犲 鍒堕€犲晢鍏ㄧū:鏈煡寤犲 鍔熻兘鎻忚堪:Field Programmable Gate Array (FPGA)
鐧�(f膩)甯冪穵鎬ラ噰璩�锛�3鍒嗛悩宸﹀彸鎮ㄥ皣寰楀埌鍥炲京(f霉)銆�

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*鍨嬭櫉 *鏁�(sh霉)閲� 寤犲晢 鎵硅櫉 灏佽
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