B10G2324N10DL
Download datasheetB10G2324N10DL
Download datasheetLDMOS 2-stage integrated Doherty MMIC
The B10G2324N10DL is a 2-stage 10 W fully integrated Doherty MMIC solution using Ampleon's state of the art LDMOS technology. The carrier and peaking device, input splitter, output combiner, and output matching are integrated in a single package. This multiband device is perfectly suited as a general-purpose device in the frequency range from 2300 MHz to 2400 MHz. Available in a 7 mm x 7 mm LGA outline.
Features and benefits
- Integrated input splitter
- Integrated output combiner
- Very high efficiency
- Designed to operate in the frequency range from 2300 MHz to 2400 MHz
- Independent control of carrier and peaking bias
- Integrated ESD protection
- Excellent thermal stability
- High power gain, input and output matched to impedance 50 Ω
- For RoHS compliance see the product details on the Ampleon website
Applications
- RF power MMIC for multi-carrier and multi-standard GSM, W-CDMA, LTE and NR small cell base stations in the 2300 MHz to 2400 MHz frequency range
Parametrics
Symbol | Parameter | Conditions | Min | Typ/Nom | Max | Unit |
---|---|---|---|---|---|---|
frange | frequency range | 2300 | 2400 | MHz | ||
PL(3dB) | nominal output power at 3 dB gain compression | 9.1 | W | |||
Test signal: CW pulsed | ||||||
VDS | drain-source voltage | [0] | 28 | V | ||
Gp | power gain | [0] | 28.3 | 31.3 | dB | |
ηD | drain efficiency | [0] | 38.5 | 46.1 | % | |
RLin | input return loss | [0] | -20 | -10 | dB |
Package / Packing
Type number | Package | Outline version | Reflow-/Wave soldering |
Packing | Product status | Marking |
Orderable part number, (Ordering code (12NC)) |
---|---|---|---|---|---|---|---|
B10G2324N10DL | LGA-7x7-20-2 (LGA-7x7-20-2) |
lga-7x7-20-2_po | TR13; 3000-fold; 16 mm dry pack | Active | Standard Marking |
B10G2324N10DLX (9349 607 35525) |
|
TR13; 1000-fold; 16 mm dry pack | Active | Standard Marking |
B10G2324N10DLZ (9349 607 35515) |
Pinning info
Pin | Symbol | Description | Simplified outline | Graphic symbol |
---|---|---|---|---|
1 | VGS_P | gate-source voltage of peaking | ||
2 | NC | not connected | ||
3 | GND | ground | ||
4 | RFin | RF input | ||
5 | GND | ground | ||
6 | GND | ground | ||
7 | VDS1 | drain-source voltage of driver stages | ||
8 | NC | not connected | ||
9 | VDS2 | drain-source voltage of final stages | ||
10 | GND | ground | ||
11 | GND | ground | ||
12 | RFout | RF output | ||
13 | GND | ground | ||
14 | NC | not connected | ||
15 | NC | not connected | ||
16 | GND | ground | ||
17 | NC | not connected | ||
18 | GND | ground | ||
19 | VDS1 | drain-source voltage of driver stages | ||
20 | VGS_C | gate-source voltage of carrier | ||
21 | GND | RF ground |
Documentation
Title | Type | Date | |
---|---|---|---|
LDMOS 2-stage integrated Doherty MMIC | Data sheet | 2024-03-20 | |
Mounting and soldering of RF transistors in overmolded plastic packages | Application note | 2023-07-24 | |
Packages for RF power transistors | Leaflet | 2024-10-25 | |
LDMOS ruggedness reliability | Other type | 2017-03-28 | |
Efficiency improvement of LDMOS transistors for base stations: towards the theoretical limit | Other type | 2017-05-02 | |
LDMOS technology for RF power amplifiers | Other type | 2017-05-03 | |
RF power solutions for Wireless Infrastructure | Brochure | 2024-10-08 |
Design support
Title | Type | Date | |
---|---|---|---|
Printed-Circuit Board (PCB) B10G2324N10DL (Data sheet) | Design support | 2024-03-20 |