NTE904 General Purpose Transistor Array 12-Pin Metal Can
Integrated Circuit
General Purpose Transistor Array
(Two Isolated Transistors and a Darlington
Connected Transistor Pair)
12-PIN METAL CAN
Info als pdf File
Description:
The NTE904 consists of four general purpose silicon NPN transistors on a common monolithic substrate in a 12-Lead TO5 type metal can. Two of the four transistors are connected in the Darlington configuration. The substrate is connected to a separate terminal for maximum flexibility.
The transistors of the NTE904 are well suited to a wide variety of applications in the low power systems in the DC through VHF range. They may be used as discrete transistors in conventional circuits but in addition they provide the advantages of close electrical and thermal matching inherent in integrated circuit construction.
Features:
- Matched Monolithic General Purpose Transistors
- Current Gain Matched to ±10%
- Base-Emitter Voltage Matched to ±2mV
- Operation from DC to 120MHz
- Wide Operating Current Range
- Low Noise Figure
Applications:
- General use in Signal Processing Systems in DC through VHF Range
- Custom Designed Differential Amplifiers
- Temperature Compensated Amplifiers
Absolute Maximum Ratings: (T
A = +25°C unless otherwise specified)
| Collector-Emitter Voltage (Each Transistor), VCEO |
|
15V |
| Collector-Base Voltage (Each Transistor), VCBO |
|
30V |
| Collector-Substrate Voltage (Each Transistor, Note 1), VCIO |
|
40V |
| Emitter-Base Voltage (Each Transistor), VEBO |
|
5V |
| Collector Current (Each Transistor), IC |
|
50mA |
| Power Dissipation, PD |
|
|
| Any One Transistor |
|
300mW |
| Total Package |
|
450mW |
| Derate Above 85°C |
|
5mW/°C |
| Operating Temperature Range, Topr |
|
-55°C to +125°C |
| Storage Temperature Range, Tstg |
|
-65°C to +200°C |
| Note 1. | The collector of each transistor is isolated from the substrate by an integral diode. The substrate (Pin10) must be connected to the most negative point in the external circuit to maintain isolation betwen transistors and to provide for normal transistor action. |
Electrical Characteristics: (TA = +25°C unless otherwise specified)
| Parameter |
Symbol |
Test Conditions |
Min |
Typ |
Max |
Units |
| Static Characteristics |
| Collector Cutoff Current |
ICBO |
VCB = 10V, IE = 0 |
- |
0.002 |
- |
nA |
| ICEO |
VCE = 10V, IB = 0 |
- |
- |
0.5 |
µA |
| Collector Cutoff Current (Darlington Pair) |
ICEOD |
VCE = 10V, IB = 0 |
- |
- |
5 |
µA |
| Collector-Emitter Breakdown Voltage |
V(BR)CEO |
IC = 1mA, IB = 0 |
15 |
24 |
- |
V |
| Collector-Base Breakdown Voltage |
V(BR)CBO |
IC = 10µA, IE = 0 |
30 |
60 |
- |
V |
| Emitter-Base Breakdown Voltage |
V(BR)EBO |
IE = 10µA, IC = 0 |
5 |
7 |
- |
V |
| Collector-Substrate Breakdown Voltage |
V(BR)CIO |
IC = 10µA, IC1 = 0 |
40 |
60 |
- |
V |
| Collector-Emitter Saturation Voltage |
VCE(sat) |
IC = 10mA, IB = 1mA |
- |
0.23 |
0.5 |
V |
| Static Forward Current Transfer Ratio |
hFE |
VCE = 3V, IC = 10mA |
50 |
100 |
- |
|
| VCE = 3V, IC = 1mA |
60 |
100 |
200 |
|
| VCE = 3V, IC = 10µA |
54 |
- |
- |
|
Magnitude of Static-Beta Ratio
(Isolated Transistors Q1 and Q2) |
|
VCE = 3V, IC1 = IC2 = 1mA |
0.9 |
0.97 |
- |
|
Static Forward Current Transfer Ratio
(Darlington Pair Q3 and Q4) |
hFED |
VCE = 3V, IC = 1mA |
2000 |
5400 |
- |
|
| VCE = 3V, IC = 10µA |
1000 |
2800 |
- |
|
| Base-Emitter Voltage |
VBE |
VCE = 3V, IE = 1mA |
0.600 |
0.715 |
0.800 |
V |
| VCE = 3V, IE = 10mA |
- |
0.800 |
0.900 |
V |
| Input Offset Voltage |
|
VCE = 3V, IE = 1mA |
- |
0.48 |
2.0 |
mV |
Temperature Coefficient of Base-Emitter Voltage
(Q1 - Q2) |
|
VCE = 3V, IE = 1mA |
- |
1.9 |
- |
mV / °C |
| Base (Q3) - Emitter (Q4) Voltage (Darlington Pair) |
VBED |
VCE = 3V, IE = 10mA |
- |
1.46 |
1.60 |
V |
| VCE = 3V, IE = 1mA |
1.10 |
1.32 |
1.50 |
V |
Temperature Coefficient of Base-Emitter Voltage
(Darlington Pair Q3 - Q4) |
|
VCE = 3V, IE = 1mA |
- |
4.4 |
- |
mV / °C |
| Temperature Coefficient of magnitude of Input Offset Voltage |
|
VCC = 6V, VEE = -6V, IC1 = IC2 = 1mA |
- |
10 |
- |
µV / °C |
| Low Frequency Noise Figure |
NF |
VCE = 3V, IC = 100µA, f = 1kHz, RS = 1k Ohm |
- |
3.25 |
- |
dB |
| Low Frequency, Small-Signal Equivalent Circuit Characteristics |
| Forward Current Transfer Ratio |
hfe |
VCE = 3V, IC = 1mA, f = 1kHz |
- |
110 |
- |
|
| Short-Circuit Input Impedance |
hie |
- |
3.5 |
- |
k Ohm |
| Open-Circuit Output Impedance |
hoe |
- |
15.6 |
- |
µmhos |
| Open-Circuit Reverse Voltage Transfer Ratio |
hre |
1.8 x 104 (Typ) |
|
| Admittance Characteristics |
| Forward Transfer Admittance |
Yfe |
VCE = 3V, IC = 1mA, f = 1kHz |
31-j1.5 (Typ) |
mmho |
| Input Admittance |
Yie |
0.3+j0.04 (Typ) |
mmho |
| Output Admittance |
Yoe |
0.001+j0.03 (Typ) |
mmho |
| Gain-Bandwidth Product |
fT |
VCE = 3V, IC = 3mA |
300 |
500 |
- |
MHz |
| Emitter-Base Capacitance |
CEB |
VEB = 3V, IE = 0 |
- |
0.6 |
- |
pF |
| Emitter-Base Capacitance |
CEB |
VEB = 3V, IE = 0 |
- |
0.6 |
- |
pF |
| Collector-Base Capacitance |
CCB |
VCB = 3V, IC = 0 |
- |
0.58 |
- |
pF |
| Collector-Substrate Capacitance |
CCI |
VCI = 3V, IC = 0 |
- |
2.8 |
- |
pF |
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