參數(shù)資料
型號(hào): TISP8200MDR
廠商: POWER INNOVATIONS LTD
元件分類: 保護(hù)電路
英文描述: COMPLEMENTARY BUFFERED-GATE SCRS FOR DUAL POLARITY SLIC OVERVOLTAGE PROTECTION
中文描述: TELECOM, SURGE PROTECTION CIRCUIT, PDSO8
封裝: PLASTIC, SOP-8
文件頁(yè)數(shù): 8/13頁(yè)
文件大?。?/td> 335K
代理商: TISP8200MDR
MAY 1998 - REVISED FEBRUARY 2005
Specifications are subject to change without notice.
Customers should verify actual device performance in their specific applications.
TISP8200M & TISP8201M
The negative protection voltage, V(BO), will be the sum of the gate supply (VBATH) and the TISP8200M peak gate(terminal)-cathode voltage
(VGT). Under a.c. overvoltage conditions VGT will be less than 2.0 V. The integrated transistor buffer in the TISP8200M greatly reduces
protector’s source and sink current loading on the VBATH supply. Without the transistor, the SCR gate current would charge the VBATH supply.
An electronic power supply is not usually designed to be charged like a battery. As a result, the electronic supply would switch off and the SCR
gate current would provide the SLIC supply current. Normally the SLIC current would be less than the gate current, which would cause the
supply voltage to increase and destroy the SLIC by a supply overvoltage. Older designs using just SCRs needed to incorporate a sacrificial
zener diode across the supply line to go short if the supply voltage increased too much. The integrated transistor buffer removes the charging
problem and the need for a safety zener.
Fast rising impulses will cause short term overshoots in gate-cathode voltage. The negative protection voltage under impulse conditions will
also be increased if there is a long connection between the gate decoupling capacitor, C1, and the gate terminal. During the initial rise of a fast
impulse, the gate current (IG) is the same as the cathode current (IK). Rates of 60 A/
μ
s can cause inductive voltages of 0.6 V in 2.5 cm of
printed wiring track. To minimize this inductive voltage increase of protection voltage, the length of the capacitor to gate terminal tracking
should be minimized.
The TISP8201M (buffered) gate is connected to the positive SLIC battery feed voltage (VBATR) to provide the protection reference voltage.
Positive overvoltages are initially clipped close to the SLIC positive supply rail value (VBATR) by the conduction of the TISP8201M transistor
base-emitter and the SCR gate-anode junctions. If sufficient current is available from the overvoltage, then the SCR will crowbar into a low
voltage ground referenced on-state condition. As the overvoltage subsides the SLIC pulls the conductor voltage down to its normal negative
value and this commutates the conducting SCR into a reverse biassed condition.
Operation of Gated Protectors (Continued)
Voltage Stress Levels on the TISP8200M and TISP8201M
Figure 6 shows the protector electrodes. The package terminal designated gate, G, is the transistor base, B, electrode connection and so is
marked as B (G). The following junctions are subject to voltage stress: Transistor EB and CB, SCR AK (reverse and off state). This clause
covers the necessary testing to ensure the junctions are good.
Testing transistor EB and SCR AK reverse:
The highest reverse EB voltage and reverse AK voltage occurs during the overshoot period of the
other protector. For the TISP8200M, the SCR has VBATR plus the TISP8201M overshoot above VBATR. The transistor EB has an additional
VBATH voltage applied (see Figure 7). The reverse current, IR, flowing into the K terminal will be the sum of the transistor IEB and the actual
internal SCR IR . The reverse voltage applied to the K terminal is the TISP8201M protection voltage, V(BO) (VBATR plus overshoot), and the G
terminal has VBATH. Similarly for the TISP8201M, IR is measured with the TISP8200M V(BO) applied and it is the sum of the transistor IEB and
the actual internal SCR IR. VBATR is applied to the G terminal.
Figure 5. Overvoltage Conditions
C1
100 nF
I
G
SLIC
V
BATH
TISP
8200M
I
K
C2
100 nF
V
BATR
0 V
0 V
I
G
I
A
RING
TIP
AI8XAD
TISP
8201M
相關(guān)PDF資料
PDF描述
TISP8200MDR-S COMPLEMENTARY BUFFERED-GATE SCRS FOR DUAL POLARITY SLIC OVERVOLTAGE PROTECTION
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相關(guān)代理商/技術(shù)參數(shù)
參數(shù)描述
TISP8200MDR-S 功能描述:SCR PROTECTOR - BUFFERED P-GATE PROG. PROT. RoHS:否 制造商:STMicroelectronics 最大轉(zhuǎn)折電流 IBO:480 A 額定重復(fù)關(guān)閉狀態(tài)電壓 VDRM:600 V 關(guān)閉狀態(tài)漏泄電流(在 VDRM IDRM 下):5 uA 開(kāi)啟狀態(tài) RMS 電流 (It RMS): 正向電壓下降:1.6 V 柵觸發(fā)電壓 (Vgt):1.3 V 最大柵極峰值反向電壓:5 V 柵觸發(fā)電流 (Igt):35 mA 保持電流(Ih 最大值):75 mA 安裝風(fēng)格:Through Hole 封裝 / 箱體:TO-220 封裝:Tube
TISP8201HDMR-S 功能描述:SCR Buffered N-Gate SCR Dual RoHS:否 制造商:STMicroelectronics 最大轉(zhuǎn)折電流 IBO:480 A 額定重復(fù)關(guān)閉狀態(tài)電壓 VDRM:600 V 關(guān)閉狀態(tài)漏泄電流(在 VDRM IDRM 下):5 uA 開(kāi)啟狀態(tài) RMS 電流 (It RMS): 正向電壓下降:1.6 V 柵觸發(fā)電壓 (Vgt):1.3 V 最大柵極峰值反向電壓:5 V 柵觸發(fā)電流 (Igt):35 mA 保持電流(Ih 最大值):75 mA 安裝風(fēng)格:Through Hole 封裝 / 箱體:TO-220 封裝:Tube
TISP8201MDR 功能描述:SCR RoHS:否 制造商:STMicroelectronics 最大轉(zhuǎn)折電流 IBO:480 A 額定重復(fù)關(guān)閉狀態(tài)電壓 VDRM:600 V 關(guān)閉狀態(tài)漏泄電流(在 VDRM IDRM 下):5 uA 開(kāi)啟狀態(tài) RMS 電流 (It RMS): 正向電壓下降:1.6 V 柵觸發(fā)電壓 (Vgt):1.3 V 最大柵極峰值反向電壓:5 V 柵觸發(fā)電流 (Igt):35 mA 保持電流(Ih 最大值):75 mA 安裝風(fēng)格:Through Hole 封裝 / 箱體:TO-220 封裝:Tube
TISP8201MDR-S 功能描述:SCR PROTECTOR - BUFFERED N-GATE PROG. PROT. RoHS:否 制造商:STMicroelectronics 最大轉(zhuǎn)折電流 IBO:480 A 額定重復(fù)關(guān)閉狀態(tài)電壓 VDRM:600 V 關(guān)閉狀態(tài)漏泄電流(在 VDRM IDRM 下):5 uA 開(kāi)啟狀態(tài) RMS 電流 (It RMS): 正向電壓下降:1.6 V 柵觸發(fā)電壓 (Vgt):1.3 V 最大柵極峰值反向電壓:5 V 柵觸發(fā)電流 (Igt):35 mA 保持電流(Ih 最大值):75 mA 安裝風(fēng)格:Through Hole 封裝 / 箱體:TO-220 封裝:Tube
TISP8210MDR-S 功能描述:SCR -150mA High Hold current RoHS:否 制造商:STMicroelectronics 最大轉(zhuǎn)折電流 IBO:480 A 額定重復(fù)關(guān)閉狀態(tài)電壓 VDRM:600 V 關(guān)閉狀態(tài)漏泄電流(在 VDRM IDRM 下):5 uA 開(kāi)啟狀態(tài) RMS 電流 (It RMS): 正向電壓下降:1.6 V 柵觸發(fā)電壓 (Vgt):1.3 V 最大柵極峰值反向電壓:5 V 柵觸發(fā)電流 (Igt):35 mA 保持電流(Ih 最大值):75 mA 安裝風(fēng)格:Through Hole 封裝 / 箱體:TO-220 封裝:Tube
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