FET BIAS CONTROLLER
DRAFT ISSUE A - DECEMBER 2000
DEVICE DESCRIPTION
The ZNBR series of devices are designed to
meet the bias requirements of GaAs and
HEMT FETs commonly used in satellite
receiver LNBs, PMR, cellular telephones etc.
with a minimum of external components
and a V
CC
of 3-6V for improved efficiency.
With the addition of two capacitors and
resistors the devices provide drain voltage
and current control for a number of external
grounded source FETs, generating the
regulated negative rail required for FET gate
biasing whilst operating from a single
supply. This negative bias, at -3 volts, can
also be used to supply other external
circuits.
The ZNBR4000/1 and ZNBR6000/1 contain
four and six bias stages respectively. In
setting drain current the ZNBR4000/1 two
resistors allows individual FET pair control
to different levels, the ZNBR6000/1 two
resistors split control between two and four
FETs. This allows the operating current of
input FETs to be adjusted to minimise noise,
w hi lst the fol lo wi ng FET stages can
separately be adjusted for maximum gain.
The series also offers the choice of drain
v o l t a g e t o b e s e t f or t he F E Ts , the
ZNBR4000/6000 gives 2.2 volts drain whilst
the ZNBR4001/6001 gives 2 volts.
These devices are unconditionally stable
over the full working temperature with the
FETs in place, subject to the inclusion of the
recommended gate and drain capacitors.
These ensure RF stability and minimal
injected noise.
It is possible to use less than the devices full
complement of FET bias controls, unused
drain and gate connections can be left open
circuit without affecting operation of the
remaining bias circuits.
In order to protect the external FETs the
circuits have been designed to ensure that,
under any conditions including power
up/down transients, the gate drive from the
bias circuits cannot exceed the range -2.5V
to 0.7V. Furthermore if the negative rail
experiences a fault condition, such as
overload or short circuit, the drain supply to
the FETs will shut down avoiding excessive
current flow.
The ZNBR4000/1 and ZNBR6000/1 are
available in QSOP16 and 20 pin packages
respectively for the minimum in devices size.
Device operating temperature is -40 to 70C
to suit a wide range of environmental
conditions.
FEATURES
V
CC
of 3-6V for improved efficiency
Provides bias for GaAs and HEMT FETs
Drives up to four or six FETs
Dynamic FET protection
Drain current set by external resistor
Regulated negative rail generator
requires only 2 external capacitors
Choice in drain voltage
Wide supply voltage range
QSOP surface mount package
APPLICATIONS
Satellite receiver LNBs
Private mobile radio (PMR)
Cellular telephones
ZNBR4000
ZNBR4000 ZNBR4001
ZNBR6000 ZNBR6001
1
ABSOLUTE MAXIMUM RATINGS
Supply Voltage
-0.6V to 15V
Supply Current
100mA
Drain Current (per FET)
0 to 15mA
(set by R
CAL1
and R
CAL2
)
Output Current
100mA
Operating Temperature
-40 to 70C
Storage Temperature
-50 to 85C
Power Dissipation (T
amb
=
25C)
QSOP16
500mW
QSOP20
650mW
ZNBR4000
ZNBR4000 ZNBR4001
ZNBR6000 ZNBR6001
2
ELECTRICAL CHARACTERISTICS TEST CONDITIONS (Unless otherwise stated):
T
amb
=
25C,V
CC
=4V,I
D
=10mA (R
CAL1
=33k
;R
CAL2
=33k
)
SYMBOL PARAMETER
CONDITIONS
LIMITS
UNITS
Min
Typ
Max
V
CC
Supply Voltage
ZNBR4000/6000
ZNBR4001/6001
3.5
3.0
12
V
I
CC
Supply Current
ZNBR4000/1
I
D1
to I
D4
=0
I
D1
to I
D4
=10mA
10
50
mA
mA
I
CC
Supply Current
ZNBR6000/1
I
D1
to I
D6
=0
I
D1
to I
D6
=10mA
15
75
mA
mA
V
SUB
Substrate Voltage
(Internally generated)
I
SUB
= 0
I
SUB
= -200
A
-1.8
-1.8
V
V
E
ND
E
NG
Output Noise
Drain
Voltage
Gate
Voltage
C
G
=4.7nF, C
D
=10nF
C
G
=4.7nF, C
D
=10nF
0.02
0.005
Vpkpk
Vpkpk
f
O
Oscillator Freq.
200
350
800
kHz
DRAIN CHARACTERISTICS
I
D
Current
8
10
12
mA
Current Change
I
DV
with
V
CC
V
CC
=5 to 12V
0.02
%/V
I
DT
with
T
j
T
j
=-40 to +70C
0.05
%/C
V
D
Voltage
ZNBR4000, ZNGB6000
ZNBR4001, ZNBR6001
2
1.8
2.2
2
2.4
2.2
V
V
Voltage Change
V
DV
with
V
CC
V
CC
= 5 to 12V
0.5
%/V
V
DT
with
T
j
T
j
= -40 to +70C
50
ppm
SYMBOL PARAMETER
CONDITIONS
LIMITS
UNITS
Min
Typ
Max
GATE CHARACTERISTICS
I
GO
Output Current Range
-30
2000
A
Output Voltage
ZNBR4000/1
V
OL
Output
Low
I
D1
to I
D4
=12mA
I
G1
to I
G4
=0
-2.5
-1.8
V
I
D1
to I
D4
=12mA
I
G1
to I
G4
= -10
A
-2.5
-1.8
V
V
OH
Output
High
I
D1
to I
D4
= 8mA
I
G1
to I
G4
= 0
0
1
V
Output Voltage
ZNBR6000/1
V
OL
Output
Low
I
D1
to I
D6
=12mA
I
G1
to I
G6
= 0
-2.5
-1.8
V
I
D1
to I
D6
=12mA
I
G1
to I
G6
= -10
A
-2.5
-1.8
V
V
OH
Output
High
I
D1
to I
D6
= 8mA
I
G1
to I
G6
= 0
0
1
V
Notes:
1. The negative bias voltages specified are generated on-chip using an internal oscillator. Two external capacitors, C
NB
and C
SUB
, of
47nF are required for this purpose.
2. The characteristics are measured using two external reference resistors R
CAL1
and R
CAL2
of value 33k
wired from pins R
CAL1/2
to
ground. For the ZNBR4000, resistor R
CAL1
sets the drain current of FETs 1 and 2, resistor R
CAL2
sets the drain current of FETs 3 and 4.
For the ZNBR6000, resistor R
CAL1
sets the drain current of FETs 1 and 4, resistor R
CAL2
sets the drain current of FETs 2, 3, 5 and 6.
3. Noise voltage is not measured in production.
4. Noise voltage measurement is made with FETs and gate and drain capacitors in place on all outputs. C
G
, 4.7nF, are connected between
gate outputs and ground, C
D
, 10nF, are connected between drain outputs and ground.
ZNBR4000
ZNBR4000 ZNBR4001
ZNBR6000 ZNBR6001
3
JFET Drain Current v R
cal
0
20
40
60
100
0
2
4
6
8
10
R
cal
(k)
D
r
ai
n
C
ur
r
e
nt
(
m
A)
80
12
14
16
TYPICAL CHARACTERISTICS
Vcc = 5V
ZNBR4000
ZNBR4000 ZNBR4001
ZNBR6000 ZNBR6001
4
FUNCTIONAL DIAGRAM
FUNCTIONAL DESCRIPTION
The ZNBR devices provide all the bias requirements for external FETs, including the generation
of the negative supply required for gate biasing, from the single supply voltage.
The diagram above shows a single stage from the ZNBR series. The ZNBR4000/1 contains 4 such
stages, the ZNBR6000/1 contains 6. The negative rail generator is common to all devices.
The drain voltage of the external FET Q
N
is set by the ZNBR device to its normal operating voltage.
This is determined by the on board V
D
Set reference, for the ZNBR4000/6000 this is nominally
2.2 volts whilst the ZNBR4001/6001 provides nominally 2 volts.
The drain current taken by the FET is monitored by the low value resistor I
D
Sense. The amplifier
driving the gate of the FET adjusts the gate voltage of Q
N
so that the drain current taken matches
the current called for by an external resistor R
CAL
. Both ZNBR devices have the facility to program
different drain currents into selected FETs. Two R
CAL
inputs are provided. For the ZNBR4000,
resistor R
CAL1
sets the drain current of FETs 1 and 2, resistor R
CAL2
sets the drain current of FETs
3 and 4. For the ZNBR6000, resistor R
CAL1
sets the drain current of FETs 1 and 4, resistor R
CAL2
sets the drain current of FETs 2, 3, 5 and 6.
Since the FET is a depletion mode transistor, it is usually necessary to drive its gate negative with
respect to ground to obtain the required drain current. To provide this capability powered from
a single positive supply, the device includes a low current negative supply generator. This
generator uses an internal oscillator and two external capacitors, C
NB
and C
SUB
.
ZNBR4000
ZNBR4000 ZNBR4001
ZNBR6000 ZNBR6001
5
R
CAL1
G
ND
D
N
G
N
R
CAL2
C
SUB
ZNBR
C
NB2
C
SUB
C
NB
C
NB1
47nF
R
CAL1
R
CAL2
Q1
* L2
* C3
* C2
C
D
10nF
C
G
4.7nF
47nF
* Stripline Elements
* L1
V
CC
33k
33k
ZNBR4000
ZNBR4000 ZNBR4001
ZNBR6000 ZNBR6001
TYPICAL APPLICATION CIRCUIT
APPLICATIONS INFORMATION
The above is a partial application circuit for the ZNBR series showing all external components
required for appropriate biasing. The bias circuits are unconditionally stable over the full
temperature range with the associated FETs and gate and drain capacitors in circuit.
Capacitors C
D
and C
G
ensure that residual power supply and substrate generator noise is not
allowed to affect other external circuits which may be sensitive to RF interference. They also
serve to suppress any potential RF feedthrough between stages via the ZNBR device. These
capacitors are required for all stages used. Values of 10nF and 4.7nF respectively are
recommended however this is design dependent and any value between 1nF and 100nF could
be used.
The capacitors C
NB
and C
SUB
are an integral part of the ZNBRs negative supply generator. The
negative bias voltage is generated on-chip using an internal oscillator. The required value of
capacitors C
NB
and C
SUB
is 47nF. This generator produces a low current supply of approximately
-3 volts. Although this generator is intended purely to bias the external FETs, it can be used to
power other external circuits via the C
SUB
pin.
Resistors R
CAL1/2
sets the drain current at which all external FETs are operated. Both ZNBR devices
have the facility to program different drain currents into selected FETs. Two R
CAL
inputs are
provided. For the ZNBR4000, resistor R
CAL1
sets the drain current of FETs 1 and 2, resistor R
CAL2
sets the drain current of FETs 3 and 4. For the ZNBR6000, resistor R
CAL1
sets the drain current of
FETs 1 and 4, resistor R
CAL2
sets the drain current of FETs 2, 3, 5 and 6. If the same drain current
is required for all FETs on either device then pins R
CAL1
and R
CAL2
can be wired together and
shunted to ground by a single calibration resistor of half normal value.
If any bias control circuit is not required, its related drain and gate connections may be left open
circuit without affecting the operation of the remaining bias circuits. If all FETs associated with
a current setting resistor are omitted, the particular R
CAL
should still be included. The supply
current can be reduced, if required, by using a high value R
CAL
resistor (e.g. 470k).
6
ZNBR4000
ZNBR4000 ZNBR4001
ZNBR6000 ZNBR6001
APPLICATIONS INFORMATION (Continued)
The ZNBR devices have been designed to protect the external FETs from adverse operating
conditions. With a JFET connected to any bias circuit, the gate output voltage of the bias circuit
can not exceed the range -3.5V to 0.7V, under any conditions including powerup and powerdown
transients. Should the negative bias generator be shorted or overloaded so that the drain current
of the external FETs can no longer be controlled, the drain supply to FETs is shut down to avoid
damage to the FETs by excessive drain current.
The following diagrams show the ZNBR4000/1 and ZNBR6000/1 in typical LNB applications.
Within each FET gain stage the numbering system indicates how the bias stages relate to the
application circuits. This is important when RCAL values are used to set differing drain currents.
Dual standard or enhanced LNB block diagram
ZNBR4000/1
Vertical
Antenna
Horizontal
Antenna
Gain Stage
GaAs/HEMTFET
Gain Stage
GaAs/HEMTFET
1
4
ASTRA
10.95 GHz-11.7 GHz
Standard Band
10.7 GHz-11.8 GHz
Enhanced Band
2
Local Osc
10.00 GHz - Standard Band
9.75 GHz - Enhanced Band
+
+
Mixer
Mixer
Gain Stage
Gain Stage
Regulator
ZHR Series
IF down feed
950-1750 MHz - Standard Band
950-2050 MHz - Enhanced Band
Horizontal Channels
Vertical Channels
3
7
Dual standard or enhanced LNB block diagram. High Gain
ZNBR4000
ZNBR4000 ZNBR4001
ZNBR6000 ZNBR6001
ZNBR6000/1
Vertical
Antenna
Horizontal
Antenna
Gain Stage
GaAs/HEMTFET
Gain Stage
GaAs/HEMTFET
1
4
ASTRA
10.95 GHz-11.7 GHz
Standard Band
10.7 GHz-11.8 GHz
Enhanced Band
Local Osc 2
10.00 GHz - Standard Band
9.75 GHz - Enhanced Band
+
+
Mixer
Mixer
Gain Stage
Gain Stage
Regulator
ZHR Series
IF down feed
950-1750 MHz - Standard Band
950-2050 MHz - Enhanced Band
Horizontal Channels
Vertical Channels
3
2
5
6
8
ZNBR6000
ZNBR6001
ZNBR4000
ZNBR4000 ZNBR4001
ZNBR6000 ZNBR6001
ORDERING INFORMATION
ZNBR4000
ZNBR4001
Part Number
Package
Part Mark
ZNBR4000Q16
QSOP16
ZNBR4000
ZNBR4001Q16
QSOP16
ZNBR4001
ZNBR6000Q20
QSOP20
ZNBR6000
ZNBR6001Q20
QSOP20
ZNBR6001
CONNECTION DIAGRAMS
9
PACKAGE DIMENSIONS
PIN No.1
IDENTIFICATION
RECESS
FOR PIN 1
A
B
D
J
E
F
G
C
K
QSOP16
PIN
Millimetres
Inches
MIN
MAX
MIN
MAX
A
4.80
4.90
0.033
0.039
B
0.635
0.025 NOM
C
0.177
0.267
0.007
0.011
D
0.20
0.30
0.008
0.012
E
3.81
3.99
0.15
0.157
F
1.35
1.75
0.053
0.069
G
0.10
0.25
0.004
0.01
J
5.79
6.20
0.228
0.244
K
0
8
0
8
Zetex plc.
Fields New Road, Chadderton, Oldham, OL9-8NP, United Kingdom.
Telephone: (44)161 622 4422 (Sales), (44)161 622 4444 (General Enquiries)
Fax: (44)161 622 4420
Zetex GmbH
Zetex Inc.
Zetex (Asia) Ltd.
These are supported by
Streitfeldstrae 19
47 Mall Drive, Unit 4
3701-04 Metroplaza, Tower 1
agents and distributors in
D-81673 Mnchen
Commack NY 11725
Hing Fong Road,
major countries world-wide
Germany
USA
Kwai Fong, Hong Kong
Zetex plc 2001
Telefon: (49) 89 45 49 49 0
Telephone: (631) 543-7100
Telephone:(852) 26100 611
Fax: (49) 89 45 49 49 49
Fax: (631) 864-7630
Fax: (852) 24250 494
http://www.zetex.com
This publication is issued to provide outline information only which (unless agreed by the Company in writing) may not be used, applied
or reproduced for any purpose or form part of any order or contract or be regarded as a representation relating to the products or
services concerned. The Company reserves the right to alter without notice the specification, design, price or conditions of supply of
any product or service.
QSOP20
PIN
Millimetres
Inches
MIN
MAX
MIN
MAX
A
8.55
8.74
0.337
0.344
B
0.635
0.025 NOM
C
1.42
1.52
0.056
0.06
D
0.20
0.30
0.008
0.012
E
3.81
3.99
0.15
0.157
F
1.35
1.75
0.053
0.069
G
0.10
0.25
0.004
0.01
J
5.79
6.20
0.228
0.244
K
0
8
0
8
ZNBR4000
ZNBR4000 ZNBR4001
ZNBR6000 ZNBR6001
12
PDF 
ZIP