-
Lithium–sulfur batteries are a promising energy-storage technology due to their relatively low cost and high theoretical energy density. However, one of their major technical problems is the shuttling of soluble polysulfides between electrodes, resulting in rapid capacity fading. Here, we present a metal–organic framework (MOF)-based battery separator to mitigate the shuttling problem. We show that the MOF-based separator acts as an ionic sieve in lithium–sulfur batteries, which selectively sieves Li+ ions while e ciently suppressing undesired polysulfides migrating to the anode side. When a sulfur-containing mesoporous carbon material (approximately 70 wt% sulfur content) is used as a cathode composite without elaborate synthesis or surface modification, a lithium–sulfur battery with a MOF-based separator exhibits a low capacity decay rate (0.019% per cycle over 1,500 cycles). Moreover, there is almost no capacity fading after the initial 100 cycles. Our approach demonstrates the potential for MOF-based materials as separators for energy-storage applications.
標簽:
鋰硫電池
隔膜
上傳時間:
2017-11-23
上傳用戶:653357637
-
是否要先打開ALLEGRO?
不需要(當然你的機器須有CADENCE系統)。生成完封裝后在你的輸出目錄下就會有幾千個器件(全部生成的話),默認輸出目錄為c:\MySym\.
Level里面的Minimum, Nominal, Maximum 是什么意思?
對應ipc7351A的ABC封裝嗎�����?
是的
能否將MOST, NOMINAL,
LEAST三種有差別的封裝在命名上也體現出差別�?
NOMINAL
的名稱最后沒有后綴,MOST的后綴自動添加“M”,LEAST的后綴自動添加“L”,你看看生成的庫名稱就知道了��。(直插件以及特別的器件���,如BGA等是沒有MOST和LEAST級別的����,對這類器件只有NOMINAL)
IC焊盤用長方形好像比用橢圓形的好,能不能生成長方形的?
嗯�。�。���。�����?;旧蠎撌欠侵苯堑暮副P比矩形的焊盤好��,我記不得是AMD還是NS還是AD公司專門有篇文檔討論了這個問題����,如果沒有記錯的話至少有以下好處:信號質量好�、更省空間(特別是緊密設計中)、更省錫量�����。我過去有一篇帖子有一個倒角焊盤的SKILL����,用于晶振電路和高速器件(如DDR的濾波電容)����,原因是對寬度比較大的矩形用橢圓焊盤也不合適,這種情況下用自定義的矩形倒角焊盤就比較好了---你可以從網上另外一個DDR設計的例子中看到�。
當然����,我已經在程序中添加了一選擇項��,對一些矩形焊盤可以選擇倒角方式.
剛才試了一下���,感覺器件的命名的規范性不是太好����,另好像不能生成器件的DEVICE文件,我沒RUN完�����。��。���。
這個程序的命名方法基本參照IPC-7351���,每個人都有自己的命名嗜好��,仍是不好統一的;我是比較懶的啦,所以就盡量靠近IPC-7351了���。
至于DEVICE,的選項已經添加 (這就是批量程序的好處,代碼中加一行,重新生產的上千上萬個封裝就都有新東西了)�。
你的庫都是"-"的,請問用過ALLEGRO的兄弟,你們的FOOTPRINT認"-"嗎?反正我的ALLEGRO只認"_"(下劃線)
用“-”應該沒有問題的,焊盤的命名我用的是"_"(這個一直沒改動過)����。
部分絲印畫在焊盤上了�。
絲印的問題我早已知道��,只是盡量避免開(我有個可配置的SilkGap變量),不過工作量比較大���,有些已經改過���,有些還沒有���;另外我沒有特別費功夫在絲印上的另一個原因是����,我通常最后用AUTO-SILK的來合并相關的層����,這樣既方便快捷也統一各個器件的絲印間距,用AUTO-SILK的話絲印線會自動避開SOLDER-MASK的����。
點擊allegro后命令行出現E- Can't change to directory:
Files\FPM���,什么原因�?
我想你一定是將FPM安裝在一個含空格的目錄里面了���,比如C:\Program
Files\等等之類��,在自定義安裝目錄的時候該目錄名不能含有空格����,且存放生成的封裝的目錄名也不能含有空格����。你如果用默認安裝的話應該是不會有問題的,
默認FPM安裝在C:\FPM�,默認存放封裝的目錄為C:\MYSYM
0.04版用spb15.51生成時.allegro會死機.以前版本的Allegro封裝生成器用spb15.51生成時沒有死機現象
我在生成MELF類封裝的時候有過一次死機現象,估計是文件操作錯誤導致ALLEGRO死機,原因是我沒有找到在skill里面直接生成SHAPE焊盤的方法(FLASH和常規焊盤沒問題),
查了下資料也沒有找到解決方法�,所以只得在外部調用SCRIPT來將就一下了���。(下次我再查查看)�,用SCRIPT的話文件訪問比較頻繁(幸好目前MELF類的器件不多).
解決辦法:
1�、對MELF類器件單獨選擇生成,其它的應該可以一次生成。
2��、試試最新的版本(當前0.05)
請說明運行在哪類器件的時候ALLEGRO出錯��,如果不是在MELF附近的話�,請告知���,謝謝����。
用FPM0.04生成的封裝好像文件都比較大��,比如CAPC、RES等器件����,都是300多K�,而自己建的或采用PCB
Libraries
Eval生成的封裝一般才幾十K到100K左右����,不知封裝是不是包含了更多的信息?
我的每個封裝文件包含了幾個文字層(REF,VAL,TOL,DEV,PARTNUMBER等),SILK和ASSEM也是分開的����,BOND層和高度信息,還有些定位線(在DISP層),可能這些越來越豐富的信息加大了生成文件的尺寸.你如果想看有什么內容的話,打開所有層就看見了(或REPORT)
非常感謝
LiWenHui 發現的BUG, 已經找到原因��,是下面這行:
axlDBChangeDesignExtents(
'((-1000 -1000) (1000
1000)))
有尺寸空間開得太大��,后又沒有壓縮的原因�,現在生成的封裝也只有幾十K了�,0.05版已經修復這個BUG了。
Allegro封裝生成器0.04生成do-27封裝不正確,生成封裝的焊盤的位號為a,c.應該是A,B或者1,2才對.
呵呵,DIODE通常管腳名為AC(A
= anode, C = cathode) 也有用AK 或 12的���, 極少見AB。
除了DIODE和極個別插件以及BGA外���,焊盤名字以數字為主,
下次我給DIODE一個選擇項,可以選擇AC 或 12 或
AK,
至于TRANSISTER我就不去區分BCE/CBE/ECB/EBC/GDS/GSD/DSG/DGS/SGD/SDG等了�,這樣會沒完沒了的�,我將對TRANSISTER強制統一以數字編號了�����,如果用家非要改變�����,只得在生成庫后手工修改。
標簽:
Footprint
Maker
0.08
FPM
skill
上傳時間:
2018-01-10
上傳用戶:digitzing
-
#include <stdio.h>
#include <stdlib.h> ///鏈式棧
typedef struct node
{
int data;
struct node *next;
}Node,*Linklist;
Linklist Createlist()
{
Linklist p;
Linklist h;
int data1;
scanf("%d",&data1);
if(data1 != 0)
{
h = (Node *)malloc(sizeof(Node));
h->data = data1;
h->next = NULL;
}
else if(data1 == 0)
return NULL;
scanf("%d",&data1);
while(data1 != 0)
{
p = (Node *)malloc(sizeof(Node));
p -> data = data1;
p -> next = h;
h = p;
scanf("%d",&data1);
}
return h;
}
void Outputlist(Node *head)
{
Linklist p;
p = head;
while(p != NULL )
{
printf("%d ",p->data);
p = p->next;
}
printf("\n");
}
void Freelist(Node *head)
{
Node *p;
Node *q = NULL;
p = head;
while(p != NULL)
{
q = p;
p = p->next;
free(q);
}
}
int main()
{
Node *head;
head = Createlist();
Outputlist(head);
Freelist(head);
return 0;
}
2.順序棧
[cpp] view plain copy
#include <iostream>
#include <stdio.h>
#include <stdlib.h> ///順序棧
#define MaxSize 100
using namespace std;
typedef
標簽:
數據結構
實驗
上傳時間:
2018-05-09
上傳用戶:123456..
-
function [alpha,N,U]=youxianchafen2(r1,r2,up,under,num,deta)
%[alpha,N,U]=youxianchafen2(a,r1,r2,up,under,num,deta)
%該函數用有限差分法求解有兩種介質的正方形區域的二維拉普拉斯方程的數值解
%函數返回迭代因子、迭代次數以及迭代完成后所求區域內網格節點處的值
%a為正方形求解區域的邊長
%r1,r2分別表示兩種介質的電導率
%up,under分別為上下邊界值
%num表示將區域每邊的網格剖分個數
%deta為迭代過程中所允許的相對誤差限
n=num+1; %每邊節點數
U(n,n)=0; %節點處數值矩陣
N=0; %迭代次數初值
alpha=2/(1+sin(pi/num));%超松弛迭代因子
k=r1/r2; %兩介質電導率之比
U(1,1:n)=up; %求解區域上邊界第一類邊界條件
U(n,1:n)=under; %求解區域下邊界第一類邊界條件
U(2:num,1)=0;U(2:num,n)=0;
for i=2:num
U(i,2:num)=up-(up-under)/num*(i-1);%采用線性賦值對上下邊界之間的節點賦迭代初值
end
G=1;
while G>0 %迭代條件:不滿足相對誤差限要求的節點數目G不為零
Un=U; %完成第n次迭代后所有節點處的值
G=0; %每完成一次迭代將不滿足相對誤差限要求的節點數目歸零
for j=1:n
for i=2:num
U1=U(i,j); %第n次迭代時網格節點處的值
if j==1 %第n+1次迭代左邊界第二類邊界條件
U(i,j)=1/4*(2*U(i,j+1)+U(i-1,j)+U(i+1,j));
end
if (j>1)&&(j U2=1/4*(U(i,j+1)+ U(i-1,j)+ U(i,j-1)+ U(i+1,j));
U(i,j)=U1+alpha*(U2-U1); %引入超松弛迭代因子后的網格節點處的值
end
if i==n+1-j %第n+1次迭代兩介質分界面(與網格對角線重合)第二類邊界條件
U(i,j)=1/4*(2/(1+k)*(U(i,j+1)+U(i+1,j))+2*k/(1+k)*(U(i-1,j)+U(i,j-1)));
end
if j==n %第n+1次迭代右邊界第二類邊界條件
U(i,n)=1/4*(2*U(i,j-1)+U(i-1,j)+U(i+1,j));
end
end
end
N=N+1 %顯示迭代次數
Un1=U; %完成第n+1次迭代后所有節點處的值
err=abs((Un1-Un)./Un1);%第n+1次迭代與第n次迭代所有節點值的相對誤差
err(1,1:n)=0; %上邊界節點相對誤差置零
err(n,1:n)=0; %下邊界節點相對誤差置零
G=sum(sum(err>deta))%顯示每次迭代后不滿足相對誤差限要求的節點數目G
end
標簽:
有限差分
上傳時間:
2018-07-13
上傳用戶:Kemin
-
Reconstruction- and example-based super-resolution
(SR) methods are promising for restoring a high-resolution
(HR) image from low-resolution (LR) image(s). Under large
magnification, reconstruction-based methods usually fail
to hallucinate visual details while example-based methods
sometimes introduce unexpected details. Given a generic
LR image, to reconstruct a photo-realistic SR image and
to suppress artifacts in the reconstructed SR image, we
introduce a multi-scale dictionary to a novel SR method
that simultaneously integrates local and non-local priors.
The local prior suppresses artifacts by using steering ker�nel regression to predict the target pixel from a small local
area. The non-local prior enriches visual details by taking
a weighted average of a large neighborhood as an estimate
of the target pixel. Essentially, these two priors are comple�mentary to each other. Experimental results demonstrate
that the proposed method can produce high quality SR re�covery both quantitatively and perceptually.
標簽:
Super-resolution
Multi-scale
Dictionary
Single
Image
for
上傳時間:
2019-03-28
上傳用戶:fullout
-
1. 日語假名及其發音一覽
平 片 羅 平 片 羅 平 片 羅 平 片 羅 平 片 羅
假 假 馬 假 假 馬 假 假 馬 假 假 馬 假 假 馬
音 音 音 音 音
______________________________________________________________________________
あ ア a い イ i う ウ u え エ e お オ o
か カ ka き キ ki く ク ku け ケ ke こ コ ko
さ サ sa し シ si/shi す ス su せ セ se そ ソ so
た タ ta ち チ chi つ ツ tsu て テ te と ト to
な ナ na に ニ ni ぬ ヌ nu ね ネ ne の ノ no
は ハ ha ひ ヒ hi ふ フ fu へ ヘ he ほ ホ ho
ま マ ma み ミ mi む ム mu め メ me も モ mo
や ヤ ya ゆ ユ yu よ ヨ yo
ら ラ ra り リ ri る ル ru れ レ re ろ ロ ro
わ ワ wa を ヲ o/wo
ん ン n
が ガ ga ぎ ギ gi ぐ グ gu げ ゲ ge ご ゴ go
ざ ザ za じ ジ zi/ji ず ズ zu ぜ ゼ ze ぞ ゾ zo
だ ダ da ぢ ヂ ji/di づ ヅ zu/du で デ de ど ド do
ば バ ba び ビ bi ぶ ブ bu べ ベ be ぼ ボ bo
ぱ パ pa ぴ ピ pi ぷ プ pu ぺ ペ pe ぽ ポ po
きゃ キャ kya きゅ キュ kyu きょ キョ kyo
しゃ シャ sya しゅ シュ syu しょ ショ syo
ちゃ チャ cya ちゅ チュ cyu ちょ チョ cyo
にゃ ニャ nya にゅ ニュ nyu にょ ニョ nyo
ひゃ ヒャ hya ひゅ ヒュ hyu ひょ ヒョ hyo
みゃ ミャ mya みゅ ミュ myu みょ ミョ myo
りゃ リャ rya りゅ リュ ryu りょ リョ ryo
ぎゃ ギャ gya ぎゅ ギュ gyu ぎょ ギョ gyo
じゃ ジャ zya/ja じゅ ジュ yu/ju じょ ジョzyo/jo
びゃ ビャ bya びゅ ビュ byu びょ ビョ byo
ぴゃ ピャ pya ぴゅ ピュ pyu ぴょ ピョ pyo
標簽:
日語
上傳時間:
2019-07-19
上傳用戶:sxc1997
-
High-Speed, Low-Power
Dual Operational Amplifier
The AD826 features high output current drive capability of
50 mA min per amp, and is able to drive unlimited capacitive
loads. With a low power supply current of 15 mA max for both
amplifiers, the AD826 is a true general purpose operational
amplifier.
The AD826 is ideal for power sensitive applications such as video
cameras and portable instrumentation. The AD826 can operate
from a single +5 V supply, while still achieving 25 MHz of band�
width. Furthermore the AD826 is fully specified from a single
+5 V to ±15 V power supplies.
The AD826 excels as an ADC/DAC buffer or active filter in
data acquisition systems and achieves a settling time of 70 ns
to 0.01%, with a low input offset voltage of 2 mV max. The
AD826 is available in small 8-lead plastic mini-DIP and SO
packages.
標簽:
826
AD
上傳時間:
2020-04-19
上傳用戶:su1254
-
PRODUCT DESCRIPTION
The AD810 is a composite and HDTV compatible, current
feedback, video operational amplifier, ideal for use in systems
such as multimedia, digital tape recorders and video cameras.
The 0.1 dB flatness specification at bandwidth of 30 MHz
(G = +2) and the differential gain and phase of 0.02% and
0.04° (NTSC) make the AD810 ideal for any broadcast quality
video system. All these specifications are under load conditions
of 150 ? (one 75 ? back terminated cable).
The AD810 is ideal for power sensitive applications such as
video cameras, offering a low power supply current of 8.0 mA
max. The disable feature reduces the power supply current to
only 2.1 mA, while the amplifier is not in use, to conserve
power. Furthermore the AD810 is specified over a power supply
range of ±5 V to ±15 V.
標簽:
810
AD
上傳時間:
2020-04-19
上傳用戶:su1254
-
transimpedance linearization circuitry. This allows it to drive
video loads with excellent differential gain and phase perfor�
mance on only 50 mW of power. The AD8001 is a current
feedback amplifier and features gain flatness of 0.1 dB to 100 MHz
while offering differential gain and phase error of 0.01% and
0.025°. This makes the AD8001 ideal for professional video
electronics such as cameras and video switchers. Additionally,
the AD8001’s low distortion and fast settling make it ideal for
buffer high-speed A-to-D converters.
The AD8001 offers low power of 5.5 mA max (VS = ±5 V) and
can run on a single +12 V power supply, while being capable of
delivering over 70 mA of load current. These features make this
amplifier ideal for portable and battery-powered applications
where size and power are critical.
The outstanding bandwidth of 800 MHz along with 1200 V/μs
of slew rate make the AD8001 useful in many general purpose
high-speed applications where dual power supplies of up to ±6 V
and single supplies from 6 V to 12 V are needed. The AD8001 is
available in the industrial temperature range of –40°C to +85°C.
標簽:
8001
AD
AR
上傳時間:
2020-04-21
上傳用戶:su1254
-
In recent years, cellular voice networks have transformed into powerful packet-switched
access networks for both voice communication and Internet access. Evolving Universal
Mobile Telecommunication System (UMTS) networks and first Long Term Evolution
(LTE) installations now deliver bandwidths of several megabits per second to individual
users, and mobile access to the Internet from handheld devices and notebooks is no
longer perceived as slower than a Digital Subscriber Line (DSL) or cable connection.
Bandwidth and capacity demands, however, keep rising because of the increasing number
of people using the networks and because of bandwidth-intensive applications such as
video streaming. Thus, network manufacturers and network operators need to find ways
to continuously increase the capacity and performance of their cellular networks while
reducing the cost.
標簽:
BRINGING
NETWORKS
Beyond
and
3G
4G
上傳時間:
2020-05-26
上傳用戶:shancjb
